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CCE 2016
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE).
Part Number:
CFP16827-USB
ISBN:
978-1-5090-3510-6
INTRODUCTION CONFERENCE COMMITTEES
GENERAL INFORMATION SPECIAL THANKS
KEYNOTE SPEAKERS TUTORIALS
SCHEDULE TECHNICAL PROGRAM
ABSTRACTS AUTHOR INDEX
AUTHOR INFORMATION KEYWORDS
CALL FOR PAPERS SPONSORS
TECHNICAL SUPPORT INFORMATION
FINAL PROGRAM BOOK
Mexico City, Mexico September 26-30, 2016
http://cce.cinvestav.mx
Copyright and Reprint Permission: Abstracting is permitted with credit to the source. Libraries are permitted to photocopy beyond the limit of U.S. copyright law for private use of patrons those articles in this volume that carry a code at the bottom of the first page, provided the per-copy fee indicated in the code is paid through Copyright Clearance Center, 222 Rosewood Drive, Danvers, MA 01923. For reprint or republication permission, email to IEEE Copyrights Manager at [email protected]. All rights reserved. Copyright ©2016 by IEEE.
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
INTRODUCTION
Editorial
This year we are celebrating the 13th International Conference, and the ninth edition in which its organization includes the participation of three academic departments at CINVESTAV: Electrical Engineering, Computer Science and Automatic Control. Also this year, we appreciate the participation of UPIITA, and IPN in the organization of this conference, where we celebrate the 80th anniversary of the creation of the IPN, 100th anniversary of the creation of the ESIME and 55th anniversary of the creation of the CINVESTAV.
The conference remains as a specialized forum where local research groups can present their recent results and proposals, interact with each other, and have the opportunity to become aware of the recent research and developments from leading institutions abroad, too. Also, the interaction with technological industry managers and government officers, keeps a special place in the activities of the conference. This year, we received 106 submissions from 20 countries (including Mexico), from which 80 were accepted for oral presentation. We received submissions from countries such as Austria, Canada, Chile, China, Colombia, Costa Rica, France, Germany, Italy, Pakistan, Russia, Spain, United Kingdom, among others, reflecting the international character of this conference. As Presidents of CCE 2016, we wish to thank the Organizing Committee, the anonymous referees and the supporting personnel for their valuable time and efforts which have made possible to hold a successful 2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE’2016). We also wish to give special thanks to the authorities IPN (Instituto Politécnico Nacional), UPIITA (Unidad Profesional Interdisciplinaria en Ingeniería y Tecnologías Avanzadas del Instituto Politécnico Nacional.), CEC Centro de Educación Contínua Ingeniero Eugenio Méndez Docurro, as well as CINVESTAV, the IEEE Electron Devices Society and to our international program committee for all their valuable help and support. To all our attendees, we give them a warm welcome to Mexico City, Mexico, wishing them a very fruitful and enriching conference, hoping that all their expectations are fulfilled.
Dr. Lorenzo Leija Salas (Electrical Engineering-CINVESTAV) Dr. Francisco Rodríguez Henríquez (Computer Science- CINVESTAV) Dr. Wen Yu Liu (Automatic Control- CINVESTAV) Dr. Alejandro Valentino Orozco ( UPIITA -IPN)
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
CONFERENCE COMMITTEES General Chairs: Dr. Lorenzo Lieja Salas (Electrical Engineering) Dr. Francisco Rodríguez Henríquez (Computer Science) Dr. Wen Yu Liu (Automatic Control) Dr. Alejandro Valentino Orozco (UPIITA -IPN) Program Chairs Chair of Automatic Control Dr. Petra Wiederhold Grauert Chair of Biomedical engineering Dr. Carlos Alvarado Serrano Chair of Communications systems Dr. Miguel Félix Mata Chair of Computer science and computer engineering Dr. Oliver Schütze Chair of Mechatronic Dr. Leonel Corona Ramírez Chair of Solid-state materials, electron devices and integrated circuits Dr. María de La Luz Olvera Amador Chair of Nanotechnology (Materials and Applications) Dr. María de La Luz Olvera Amador
Chair of Biomimetics
Dr. Lilia Martínez Pérez
Program Committee
PC member Organization
Aaron Diaz Cano SIP UPIITA
Adrián Martínez
Alberto Luviano-Juarez UPIITA IPN
Alberto Soria CINVESTAV-IPN
Alejandro Alvarado Iniesta Universidad Autónoma de Ciudad Juárez
Alejandro Diaz-Sanchez Instituto Nacional de Astrofisica, Optica y Electronica
Alejandro Guillén Santiago Universidad Iberoamericana
Alejandro Medina Doctor en Ciencias
Alejandro Rojas Universidad de Concepción
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
PC member Organization
Alfredo Ramírez-García Dpto. Ciencias de la Computación, Universidad Autónoma de Aguascalientes
Alfredo Reyes CINVESTAV-IPN
Al-Sakib Khan Pathan Southeast University, Bangladesh/ Islamic University in Madinah, KSA
America Morales CINESTAV SALTILLO
America Morales Diaz CINESTAV SALTILLO
Amilcar Meneses CINVESTAV-IPN
Ana María Martínez Enríquez CINVESTAV-IPN
Andrea Martinez-Lopez Centro de Investigacion en Micro y Nanotecnologia, Universidad Veracruzana
Andrés Iván Oliva CINVESTAV-IPN Unidad Merida
Antonio Cerdeira CINVESTAV
Arnulfo Alanis Garza Instituto Tecnológico de Tijuana
Arturo Escobosa CINVESTAV-IPN
Arturo Maldonado Álvarez CINVESTAV-IPN
Arturo Morales Acevedo CINVESTAV del IPN
Arturo Vera CINVESTAV IPN
Baldemar Ibarra-Escamilla INAOE
Baltazar Aguirre Hernández Universidad Autónoma Metropolitana, unidad Iztapalapa
Blanca Tovar Corona UPIITA IPN
Carlos Aguilar CIC-IPN
Carlos Alvarado Serrano CINVESTAV-IPN
Carlos Coello CINVESTAV-IPN
Carmen Maya CICESE
Cinthya Toledo CINVESTAV-IPN
Citlalli Tujillo Romero Erasmus MC-cancer center
Cynthia Beatriz Perez Castro Instituto Tecnologico de Sonora
Eduardo Rodriguez Angeles Universidad Autonoma del Estado de Mexico, Facultad de Ingenieria
Federico Sandoval CINVESTAV-IPN -Guadalajara
Felipe Gomez-Castaneda CINVESTAV-IPN
Fernando Castanos CINVESTAV-IPN
Francisco De Anda Instituto de Investigación en Comunicación Óptica Universidad Autónoma de San Luis Potosí.(IICO-UASLP)
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
PC member Organization
Francisco Rodriguez- Henriquez CINVESTAV-IPN
G. Eduardo Sandoval-Romero Centro de Ciencias Aplicadas y Desarrollo Tecnologico/UNAM
Gabriel Juarez-Diaz BUAP
Gabriel Romero Paredes CINVESTAV-IPN
Gerardo de La Fraga CINVESTAV. Computer Science Department
Goldie Oza CINVESTAV-IPN
Hadi Aliakbarian KU Leuven - K.N.Toosi Univ. of Tech
Heberto Gómez universidad Autonoma del Estado de Hidalgo
Hector Baez Medina National Polytechnic Institute - Computing Research Center
Héctor Guillén Bonilla Universidad de Guadalajara
Heike Trautmann University of Münster
Humberto Sossa CIC - IPN
Igor Litvinchev UANL
Isaac Chairez UPIBI-IPN
Ivan Lopez CINVESTAV-IPN - Tamaulipas
Jesus E Molinar UAEM
Jorge Davila National Polytechnic Institute of Mexico
Jose Alberto Andraca Adame Centro de Nanociencias y Micro y Nanotecnologias
José Luis González-Vidal Universidad Autónoma del Estado de Hidalgo
Jose Luis Vazquez-Gonzalez Universidad de las Americas, Puebla
Jose Miguel Rocha-Perez INAOE
Jose Santos Cruz Universidad Autónoma de Querétaro
Jose-Antonio Medina-Hernandez CINVESTAV, UAA
Juan Manuel Gutierrez Salgado CINVESTAV-IPN
Juan Mata-Machuca Instituto Politécnico Nacional
Julio Cesar-Tinoco Microna - University of Veracruz
Laura-Ivoone Garay-Jiménez UPIITA
Leonard Denise Thales Communications & Security
Leonardo Trujillo Instituto Tecnológico de Tijuana
Leonel Soriano-Equigua FIME, University of Colima
Lilia Martínez Pérez UPIITA IPN
Lorenzo Gildo-Ortiz Universidad de Colima
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
PC member Organization
Luis Alejandro Marquez-Martinez CICESE Research Center
Luis Gerardo Vela Valdes CENIDET
Magali Estrada Del Cueto CINVESTAV-IPN
Marco A Reyna UABC
Marco Ivan Ramirez-Sosa Moran University of Westminster
Maria De La Luz Olvera Amador CINVESTAV-IPN
María De Lourdes Albor Aguilera ESFM-Instituto Politécnico Nacional
Maria Victoria Bueno Delgado Technical University of Cartagena
Mariano Aceves INAOE
Mauricio Ortega-Lopez Departamento de Ingenieria Electrica SEES/Centro de Investigacion y de Estudios Avanzados del Instituto Politecnico Nacional
Miguel Aleman CNMN-IPN
Miguel Ángel Meléndez Lira CINVESTAV-IPN
Miguel Félix Mata UPIITA IPN
Miguel Gabriel Villarreal-Cervantes CIDETEC-IPN
Miguel López-Benítez University of Liverpool
Monica Vazquez Hernandez IIMAS-UNAM
Mónico Linares-Aranda Instituto Nacional de Astrofísica, Óptica y Electrónica
Oliver Schütze CINVESTAV-IPN
Oscar Goiz IPN
Osslan Osiris Vergara Villegas Universidad Autnoma de Ciudad Juárez (UACJ)
Pablo Luna-Lozano University of Veracruz
Pablo Rogeli CINVESTAV-IPN
Pavel Zuniga University of Guadalajara
Peng-Hua Wang National Taipei University
Petra Wiederhold CINVESTAV-IPN
Ramón Peña CINVESTAV-IPN
Raul Cortes RACOM MICROELECTRONICS SA DE CV
Raúl Dalí Cruz Morales CINVESTAV-IPN
Raul Martinez-Memije Instituto Nacional de Cardiologia
Raul Villafuerte UAEH
Reyes Rios-Cabrera Centro de Investigacin y de Estudios Avanzados del IPN (CINVESTAV)
Robert Preis FH Dortmund
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
PC member Organization
Roberto Baca Arroyo National Polytechnic Institute
Roberto Castillo Universidad Politécnica de Pachuca
Rodolfo Reyes-Báez University of Groningen
Sonia Mendoza CINVESTAV-IPN
Thomaz Oliveira CINVESTAV-IPN
Vadim Azhmyakov Universidad de Medellin
Víctor Alcaraz-Gonzalez Universidad de Guadalajara
Victor Cabrera-Arenas Instituto Politécnico Nacional
Victor Cardenas UASLP
Víctor Manuel Sánchez Resendiz CINVESTAV-IPN
Wilfrido Calleja-Arriaga INAOE
Wilfrido Gomez Centro de Investigación y de Estudios Avanzados del I.P.N.
Yasuhiro Matsumoto CINVESTAV
Zabdiel Brito-Brito ITESO
Program Committee-Invited
Ali Ghavidel Ali Parto Andres Peters Antonio Concha Araceli Garate Garcia Brisbane Ovilla Carlos Loredo Chris Townsend Christopher Kellett Daniel Sbarbaro Dante Kalise Eduardo Gamaliel Hernández Martínez Esteban Pino Fermi Guerrero Castellanos Hugo Garces Joaquín Álvarez Gallegos Jorge-Antonio Lopez-Renteria Karina Barbosa Martín-Eduardo Frías-Armenta Ollin Penaloza-Mejia Roberto Baca Arroyo Victor Alcaraz Yury Orlov
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Finance Chair Dr. Lorenzo Leija Salas With the support of: Alma Angélica Andrade Carta Registration and Publication Chair M.C. Judith Esparza Azcoitia With the support of: Ing. José Luís Flores Garcilazo Logistics Committee M. en C. Rubén Pérez Valladares Ing. Héctor Mendoza Technical Support Miguel Ángel Velasco Piña José David Torres Frías Valente Espinosa Anabel Díaz Mena Session Chairs: Dr. Fernando Castaños Dr.Vadim Azhmyakov Dr. Joaquín Collado Dra. Sabine Mondie Dr. Alberto Soria Dr. Arturo Vera Hernández Dra. Blanca Tovar Corona Dr. Carlos Alvarado Serrano Dr. Juan Manuel Gutiérrez Salgado Dr. Francisco Rodríguez Henríquez Dra. Giselle M. Galván Tejada Dr. Arturo Escobosa Echavarría Dra. María de la Luz Olvera Amador Dr. Mario Alfredo Reyes Barranca Dr. Gabriel Romero Paredes Dr. Felipe Gómez Castañeda Dr. Yasuhiro Matsumoto Kuwahara Dr. Alejandro Medina
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
GENERAL INFORMATION The 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE 2016) is organized by the Departments of Automatic Control, Computer Science, and Electrical Engineering of CINVESTAV together with UPIITA of IPN. The CCE conference will take place in Mexico City, Mexico at the premises of the Centro de Educación Coninua Center for Continuing Education "Ingeniero Eugenio Méndez Docurro" of the Instituto Politécnico Nacional (IPN) Unidad Allende. Address: Belisario Domínguez 22 Delegación Cuauhtémoc, Centro, CP 06000 Mexico City. Mexico Tutorial Courses The Tutorial Courses will take place in Mexico City, Mexico at the premises of the Centro de Investigación y de Estudios Avanzados del I.P.N. (CINVESTAV-Computer Science/Electrical Engineering Departments) Address: Av. Instituto Politécnico Nacional 2508 (corner with Av. Ticomán) Col San Pedro Zacatenco, CP 07360 Delegación Gustavo A. Madero Mexico City. Mexico Suggested Hotels Hotel Ritz Ciudad de México Address: Calle Francisco I. Madero N. 30 Col. Centro Contact: TEL: 5130-0169 http://www.hotelritz.mx/ubicacion E-MAIL: [email protected] HOTEL HISTÓRICO CENTRAL Histórico Central Hotel
Bolivar 28, Centro Histórico, CP:06000 Mexico City, Mexico Phone: 52 55 5521 2121 E-mail: [email protected] Galery: http://www.centralhoteles.com/historico/gallery-es.html http://www.centralhoteles.com/default-es.html Zócalo Central Hotel
5 De Mayo 61, Centro Histórico, CP: 06000 Mexico City, Mexico Phone: 52 55 5130 5130 Email: [email protected] Galery: http://www.centralhoteles.com/zocalo/photo-es.html http://www.centralhoteles.com/default-es.html Best Western Hotel Majestic Centro Histórico
Av. Francisco I. Madero 73, Col. Centro Mexico City Reservations Tel:+52 (55) 5521-8600 Email: [email protected] http://www.majestichotel.com.mx/
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Conference Banquet (Thursday September 29, 2016)
Restaurante Danubio
Menu
Avocado Stuffed With Tuna Seafood Soup (Green) Salmon Steak Custard, peaches with cream or ice cream American Coffee or Tea Orange soft drinks/ lemonade Red wine glass or white wine glass
Located on Uruguay Street. El Danubio is a part of gastronomic tradition in the historical downtown of Mexico City. Founded in 1936, El Danubio keeps its original appearance which makes it a unique and incomparable place in Mexico. The Basque founders succeeded with time in forming a menu with over 110 International dishes, maintaining the highest quality standards. El Danubio offers Fish and Seafood specialties such as: Grilled Crawfish, Green or Red Seafood Soup, Authentic Baby Eels From Aguinaga, Thermidor Lobster, and much more.
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
SPECIAL THANKS Dr. Enrique Fernández Fassnacht General Director, IPN Dr. José Mustre de León General Director, CINVESTAV-IPN Dr. Gilberto Alejandro García Guerra General Director, UPIITA -IPN Dr. Mauro Alberto Enciso Aguilar General Director, CEC-IPN Dr . Gerardo Antonio Herrera Corral Academic Secretary, CINVESTAV-IPN Dr. José Luis Leyva Montiel Planning Secretary, CINVESTAV-IPN Lic. Jesús Corona Uribe Administrative Secretary, CINVESTAV-IPN Institute of Electrical and Electronics Engineers IEEE Electron Devices Society EDS Instituto Politécnico Nacional IPN Centro de Investigación y de Estudios Avanzados del IPN CINVESTAV-IPN Unidad profesional Interdisciplinaria en Ingeniería y Tecnologías Avanzadas del IPN UPIITA Centro de Educación Continua Ingeniero Eugenio Méndez Docurro CEC Electrical Engineering Department (Departamento de Ingeniería Eléctrica) CINVESTAV-IPN Automatic Control Department (Departamento de Control Automático) CINVESTAV-IPN Computer Science Department (Departamento de Computación) CINVESTAV-IPN
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
KEYNOTE SPEAKERS
Prof. Juan A. Gallego-Juárez Instituto de Tecnologías Físicas y de la Información “L. Torres Quevedo”. Consejo Superior de Investigaciones Científicas (CSIC) Madrid, España http://www.itefi.csic.es/es/personal/gallego-juarez-juan-antonio PUSONICS S.L. http://www.pusonics.es/ Madrid Spain Plenary Talk : Ultrasonic Technologies in Biomedical and Industrial Engineering, transfer from research to industry
Date: Wednesday September 28, 2016 Abstract: Today one of the main challenges for universities and research centers is to transfer the knowledge created in their laboratories to the society. The translation of scientific and technological advances from academic research organizations into commercialized products requires special processes that must be carefully studied and analyzed to achieve success. It is commonly believed that the greatest difficulties for implementation of new technologies in the industrial world come from the problems of research and development of these technologies. However, although these problems require a great effort, they are not perhaps the most difficult to overcome. The keys to success in the creation and transfer of technology reside in bridging properly academic and industry relationship. In the field of power ultrasonics we have been able to create new technologies and transfer them to industry. This presentation deals with a review of some power ultrasound technologies and their applications as well as with the mechanisms employed to facilitate the bridging between academic research and commercial world. Biographical note of Prof Juan A. Gallego-Juárez Juan A. Gallego-Juárez, is presently a Professor ad Honorem at the Spanish Higher Council for Scientific Research (CSIC) where he founded the group of Ultrasonics and was the Director of the Institute of Acoustics and of the Center for Physics Technologies. He is also the Founding Partner and Principal Scientific Adviser of the company PUSONICS S.L. His research work has always been related to ultrasonics, particularly power ultrasonics, transducers and applications. His major contribution is in the field of power ultrasound and more specifically in the study, design, development and characterization of new power sonic and ultrasonic generators, in their application to the production of macrosonic processes and in the study of the corresponding nonlinear phenomena involved in such processes. He is the author of over 300 publications and 40 patents and is co-editor of the recently published comprehensive book “Power Ultrasonics” (Woodhead Publishing-Elsevier 2015). Academic Degrees Doctor Honoris Causa, University of Santiago de Chile, 2004 Doctor Physical Sciences, University of Madrid, 1971 Doctor Physics, University of Rome, Italy, 1970 Master Physical Sciences, University of Madrid, June 1966 Awards Diploma Reconocimiento CINVESTAV (2012) Distinguished Service Award (Golden Whistle Award), Board of the International Congress on Ultrasonics (2011) Member of Merit, Spanish Acoustical Society, 2011 Golden Medal, University of Santiago de Chile (2004) Honor Diploma, Portuguese Acoustical Society (2004) First Prize for Technological Innovation, Babcock Foundation (1995)
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
First Prize to Scientific Research, Ph.D. Thesis, Saving Bank of Cordoba (1971) Positions Held 1988- 2011: Research Professor, CSIC 1991-2003: Director, Institute of Acoustics CSIC 1994-2002: Director, Center for Physical Technologies, CSIC 1971-1995: Head, Ultrasonics Laboratory of the Institute of Acoustics, CSIC 1973-1988: Scientific Researcher, CSIC 1971-1972: Scientific Collaborator, CSIC 1969-1970: Scientific Collaborator, CNR 1966-1970: Postgraduate Fellow, CSIC and CNR 1965-1966: Graduate Fellow, CSIC CSIC:Higher Counci lfor Scientific Research of Spain CNR: National Research Council of Italy Other Professional Activities President of the 19th International Congress on Acoustics (ICA2007 MADRID) Member of Scientific Commission Boards: International Commission for Acoustics (1998-2007), World Congress on Ultrasound (1993-2006) , International Congress on Ultrasonics ( 2006- 2011), Spansih Acoustical Society (1991-2015) Member of Editorial Boards of Journals : Ultrasonics (1979-2002), Acustica/ Acta Acustica (1993-2011) Scientific Societies Fellow: Acoustical Society of America , British Institute of Acoustics Scientific Societies Member: New York Academy of Sciences , IEEE, Ultrasonic Industry Association Chairman of the Technical Committee on Ultrasound of the European Acoustical Association (2002-2007)
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Prof. Edgar Sánchez-Sinencio University Distinguished Professor and TI J. Kilby Chair Professor at Texas A&M University TX, USA. http://www.ece.tamu.edu/~sanchez/ Plenary Talk : Internet of Things (loT): Hardware and Applications Date: Friday September 30, 2016
Abstract IoT interest is rapidly growing because the host of applications and its growing potential market. There are many aspects for IoT. We focus in this presentation on IC. low power hardware and practical applications. Energy harvesting power management for different energy harvesting sources is discussed. To illustrate photovoltaic, thermal generators, piezoelectric and RF harvesting are considered. The design of power management for the different EH sources and their capabilities and limitations are discussed. Finally, some important examples of applications in different fields are presented. Biographical note of Prof Edgar Sánchez-Sinencio Edgar Sánchez-Sinencio (F’92–LF’10) was born in Mexico City, Mexico. He received the degree (Professional degree) in communications and electronic engineering from the National Polytechnic Institute of Mexico, Mexico City, Mexico, in 1966, the M.S.E.E. degree from Stanford University, Stanford, CA, USA, in 1970, and the Ph.D. degree in electrical engineering from the University of Illinois at Champaign-Urbana, Urbana, IL, USA, in 1973. He has guided 59 M.Sc. and 44 Ph.D. students. He has coauthored six books on different topics, such as RF circuits, low-voltage low-power analog circuits, and neural networks. He is currently a Distinguished Professor and the TI J. Kilby Chair Professor with Texas A&MUniversity, College Station, TX, USA. His interests include energy harvesting techniques, power management, ultra-low power analog circuits, RF circuits, and medical electronics circuit design. Dr. Sánchez-Sinencio is a former Editor-in-Chief of the IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS II and a former IEEE Circuits and Systems (CAS) Society Vice President-Publications. He was the IEEE Circuits and Systems Society’s Representative to the IEEE Solid-State Circuits Society from 2000 to 2002. He was a member of the IEEE Solid-State Circuits Society Fellow Award Committee from 2002 to 2004. He is a member of the ISSCC Analog Committee 2013–present. He is a former Distinguished Lecturer (2012–2013) of the IEEE CAS Society. In November 1995, he was awarded a Honoris Causa Doctorate by the National Institute for Astrophysics, Optics and Electronics, Mexico. This degree was the first honorary degree awarded for microelectronic circuit-design contributions. He was the corecipient of the 1995 Guillemin-Cauer Award for his work on cellular networks. He received the Texas Senate Proclamation # 373 for Outstanding Accomplishments in 1996. He was also the corecipient of the 1997Darlington Award for his work on high-frequency filters, the IEEE Circuits and Systems Society Golden Jubilee Medal in 1999, and the prestigious IEEE CAS Society 2008 Technical Achievement Award.
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Prof. Liang Zhao Professor and the Head of the Department of Computing and Mathematics (DCM). University of São Paulo (USP) Brazil http://dcm.ffclrp.usp.br/~zhao/ Plenary Talk : Machine Learning in Complex Networks - Modelling and Applications Date: Thursday September 29, 2016
Abstract: In the last years, an increasing interest in machine learning and data mining techniques using complex networks has been verified. This emergence is explained by the inherent advantages of network representation, which allows to capture spatial, topological, and functional relations of the data. In this talk, I firstly give an overview of complex network-based machine learning. Then, I introduce some specific techniques for supervised, unsupervised, and semi-supervised learning. Particularly, a particle competition model for both unsupervised and semi-supervised learning is described. Here, I also show how to deal with the problem of imperfect learning by adapting the particle competition system to withstand flawed training sets. Regarding supervised learning, a hybrid classification technique that combines both low and high orders of learning is introduced. The low-level term is implemented by traditional classification techniques, while the high-level term is realized by extracting features of the underlying network constructed from the input data. The general idea of the model is that the low-level term classifies test instances by their physical features, while the high-level term measures the compliance of test instances with the pattern formation of the data. We show that the high-level technique can realize classification according to the semantic meaning of the data. Biographical note of Liang Zhao Liang Zhao received his BSc degree from Wuhan University, Wuhan, China, and MSc and PhD degrees from the Aeronautic Institute of Technology, São José dos Campos, Brazil, in 1988, 1996, and 1998, respectively, all in Computer Science. He joined the University of São Paulo (USP), Brazil, in 2000, where he is currently a Full Professor and the Head of the Department of Computing and Mathematics (DCM). From 2003 to 2004, he was a visiting researcher with the Department of Mathematics, Arizona State University, Tempe, USA. His current research interests include artificial neural networks, machine learning, nonlinear dynamical systems, complex networks, bioinformatics, and pattern recognition. He has published more than 180 scientific articles in refereed international journals, books, and conferences. Dr. Zhao is a recipient of the Brazilian Research Productivity Fellowship. He is currently an Associate Editor of the NEURAL NETWORKS and he was an Associate Editor of the IEEE TRANSACTIONS ON NEURAL NETWORKS AND LEARNING SYSTEMS from 2009 to 2012.
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Prof. Adolfo Guzmán Arenas Centro de Investigación en Computación (CIC) del Instituto Politécnico Nacional (IPN) Mexico City, Mexico http://www.cic.ipn.mx/aguzman/ http://www.cic.ipn.mx/aguzman/spanish.html Plenary Talk: La computación al inicio del tercer milenio Date: Thursday September 29, 2016
Abstract: ¿Qué va a pasar en computación e ingeniería de cómputo en los próximos cincuenta años? ¿A dónde estamos, a dónde vamos? La plática dará una perspectiva global (no de México), desde mi visión particular. Comienza argumentando: Es una ciencia muy joven. La mayoría de sus descubrimientos no se han hecho. No sabemos guardar la capacidad de cómputo. No sabemos medir los fenómenos que la Computación estudia. No hay ecuaciones de estado, no hay teoremas. Luego se tocan diferentes avances que se perciben como probables.
• En la organización de los datos. • En la adquisición de información. La pérdida de la privacía. Internet de las cosas. • En la construcción de software. Lenguajes para expertos en otras áreas. Uso de esténciles para multiprocesadores. • En la percepción. Nuevas formas de obtener información. Formas. Olores. Sentimientos. • En la capacidad de hacer inferencias y análisis. Expertos en un área ("sabelotodos"). Wolfram Alpha. Aprendizaje
profundo. La interciencia (la colaboración entre máquinas "especializadas"). Biographical note of Prof. Adolfo Guzmán Arenas: Ph. D in Computer Science (Artificial Intelligence),Instituto Tecnológico de Massachussetts (MIT) Boston,USA. M. of Sc. in Electrical Engineering (Computer Science), Instituto Tecnológico de Massachussetts(MIT) Boston,USA. Communications and Electronics Engineer, School of Mechanical and Electrical Engineering (ESIME) del Instituto Politécnico Nacional (IPN), México. Dr. Adolfo Guzman-Arenas is an Engineer from Instituto Politecnico Nacional (National Polytechnic Institute, or Politecnico), in Mexico City. He obtained his M. Sc. and Ph. D. in Computer Science from M.I.T., in Boston, Mass., USA. He was Professor at the Electrical Engineering Department (M.I.T.); at the Department of Mechanical Intelligence (University of Edinburgh); at the Center for Research and Advanced Studies (CINVESTAV-Politecnico), where he founded the M. Sc. and Ph. D. programs in Computer Science; at the Institute for Applied Mathematics and Systems (National University of Mexico), where he was Head of the Computer Science Department; and at the Interdisciplinary Unit of Politecnico (UPIICSA) He was Director of the IBM Latin American Scientific Center (IBM Mexico). He has been Senior Member of the Technical Staff of MicroElectronics and Computer Corporation (M.C.C.), Austin, Texas; Vice President of Engineering at International Software Systems (Austin), and founder and President of SoftwarePro International (Austin), a software company that develops commercial packages and software engineering tools. In 1994 the Mexican Academy of Informatics (AMIAC) awarded him the National Prize in Informatics (details in Spanish). He received from the President of Mexico in 1996, the National Prize in Sciences and Arts (details in Spanish), for contributions to “Technology and Design,” and from his same hands, in 1997, the “Lazaro Cardenas” award. In 1996 he founded the Centro de Investigacion en Computacion (Center for Computing Research, or CIC) at Politecnico, and directed it until 2002. In that year was nominated “Fellow of the Association for Computing Machinery (ACM)”, and member of the Publications Board of ACM. Now, he conducts research at CIC in distributed processing, data warehouses, data mining and agents. His main interest is the use of Artificial Intelligence in data mining, semantic processing and applications of information systems. He is also interested in vision and pattern recognition. He is member of the National Academy of Sciences (Mexico), Academy of Engineering (Mexico), Science Advisory Board to the President (Mexico), New York Academy of Sciences.
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
TUTORIALS "Prótesis Cibernética" Dr. Gerardo Alejandro Valentino Orozco Professor and researcher of UPIITA –IPN, Ph.D. : CINVESTAV-IPN M.N.C Dan López Vázquez Neurosurgeon and professor Hospital Juárez de México and IPN M.O.T. Leobardo Guerrero Beltrán Hospital Juárez de México Dra. María de los Angeles Araceli Díaz Ruíz Investigator of National Institute of Neurology and Neurosurgery (Instituto Nacional De Neurología Y Neurocirugía Manuel Velasco Suárez) Ph.D. Natln.Univ.of Mexico M. en C. Álvaro Altamirano Altamirano Ph.D. Student - CINVESTAV-IPN - CRAN UL - CNRS UMR 7039, Nancy, Francia M. en I. Francisco Daniel Ruíz Díaz ESIME-Azcapotzalco-IPN, Ph. D. Student UAM Iztapalapa Dr. Camilo Ríos Castañeda Instituto Nacional de Neurología Date: September 26-27, 2016 9:00 a 13:30 - 15:30 a 20:30 Languaje: Spanish
Se refieren a dispositivos de alta tecnología embebidos en el cuerpo humano. ¿Es posible la conjunción de tales sistemas? ¿Qué requerimientos tecnológicos deberemos conjuntar para desde la postura de la Biomimética, la robótica y la cibernética integrar un sistema artificial que pueda ser embebido dentro del cuerpo humano y que sustituya las funciones de miembros pélvicos y torácicos? De igual forma, desde la Ciencia médica y la Biología ¿Qué técnicas quirúrgicas, de biocompatibilidad y Neurológicas deberán cumplirse para asegurar que el individuo no rechace la integración del sistema tecnológico? Las prótesis cibernéticas no presentan un movimiento autónomo del todo, éstas deben ser asistidas por un sistema Neurobiónico donde se adquiera la señal directamente de la corteza cerebral, posteriormente guiar el bus de datos por debajo de la piel del sujeto hasta la zona de la amputación donde se encuentre la interface cibernética. Lo que sigue es el procesamiento, clasificación e interpretación de los patrones de la señal a través de algoritmos de computadora.
El tutorial estará dividido en 7 sesiones, detalladas a continuación:
1.- Prótesis Cibernéticas (Introducción) 2 Horas Dr. Gerardo Alejandro Valentino Orozco
2.- Amputación de la extremidad, técnicas quirúrgicas, terapia postoperatoria
2 Horas M.O.T. Leobardo Guerrero Beltrán
3.- Sistemas Neurobiónicos
2 Horas M. N.C. Dan López Vázquez
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
4.- Biocompatibilidad, Poliméros, Polipirrol 4 Horas Dra. Araceli Díaz Ruiz Dr. Camilo Ríos Castañeda
5.- Diseño y Manufactura de sistemas protésicos de miembro pélvico
2 Horas M. en C. Daniel Ruiz Díaz
6.- Diseño y Manufactura de sitemas protésicos de miembro torácico
2 Horas M. en C. Álvaro Altamirano Altamirano
7.- Control de Sistemas Cibernéticos, 2 Horas
M. en C. Álvaro Altamirano Altamirano
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
"Análisis de Materiales Electrónicos por Difracción de Rayos X " Dr. Arturo Escobosa Echavarría Professor and researcher of CINVESTAV-I.P.N. Electrical Engineering Department -Mexico Doctor of Engineering (1983); Aachen University, Germany http://www.ie.cinvestav.mx/index.php/arturo-escobosa-echavarria
Ing. Jorge Pablo González Garibay Panalytical - México
Date: Monday September 26, 2016 9:00-14:00 Languaje: Spanish La difracción de rayos X comprende un conjunto de técnicas que son usadas para la caracterización de materiales y estructuras, que van desde identificación de fases hasta la determinación de detalles finos de estructuras nanométricas. El objetivo de este curso es introducir al asistente a diferentes técnicas empleadas y la información que puede ser obtenida a partir de ellas. Programa: 9:00-11:00 Introducción a la Difracción de Rayos X (XRD) Identificación de fases Textura 11:00-11:30 – Pausa 11:30-13:30 Dispersión de rayos X a bajo ángulo (SAXS) Función de distribucion de pares (PDF) Difracción de rayos X a alta resolución (HR-XRD) Caracterización de películas epitaxiales
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
"Análisis de Imágenes para Sistemas de Visión Artificial"
Dr. Juan Manuel Ibarra Zannatha Professor and researcher of CINVESTAV-I.P.N. Automatic Control Department Mexico Doctor of Engineering (1982); Institute de Recherche en Informatique et Systemes Aléatoires, France Robotic and Artifical Vision Laboratory http://www.ctrl.cinvestav.mx/~coordinacion/jmibarraz/index.htm Date: Tuesday September 27, 2016 15:30 a 20:30 Languaje: Spanish
INTRODUCCIÓN La Visión Artificial (VA) se puede definir como un proceso que permite realizar la descripción de la imagen de una cierta escena a fin de obtener información de utilidad en el control del movimiento de una máquina a fin de interaccionar de manera inteligente y eficiente con dicha escena. Así, la VA se distingue de la Visión por Computadora en que la primera forma parte de un lazo cerrado de control a manera de sensor. La VA utiliza técnicas provenientes de la Óptica, de la Electrónica, del Procesamiento de Señales, de las Ciencias de la Computación, de la Inteligencia Artificial y aún de la Ingeniería Mecánica cuando se utiliza en el contexto de la Robótica. Por otro lado, las aplicaciones de la VA no dejan de aumentar y cada vez son más las áreas de la actividad humana que incorporan algún aspecto de percepción visual, siendo la Robóticauna de las que utilizan con más intensidad y amplitud la gran diversidad de técnicas que ofrece la VA. Este marcado carácter ultidisciplinario de la VA, así como la gran cantidad de aplicaciones que tiene, hace que su estudio se convierta en un reto muy motivador para los estudiantes de posgrado en áreas como el Control Automático, la Mecatrónica y la Robótica, entre otras. El vasto dominio de la VA comprende los siguientes tres principales temas de interés: i) Formación y Adquisición de Imágenes, ii) Procesamiento Digital de Imágenes, y iii) Análisis de Imágenes. Este curso tutorial está enfocado en los temas de análisis de imágenes, por lo que se dirige a estudiantes que tengan nociones de los dos primeros temas. Este curso ofrece una motivación particular pues el Análisis de Imágenes es uno de los aspectos de la VA con mayor interés, pues ofrece una amplia gama de problemas de investigación y es en esta área donde hay mayores oportunidades de generar contribuciones importantes. Además, en las aplicaciones de la VA en Robótica hay muchos problemas de interés basados en el Análisis de Imágenes. OBJETIVO Los objetivos que persigue este curso es presentar la importancia del Análisis de Imágenes dentro de un Sistema de VA así como las diferentes tareas que se deben realizar como parte del Análisis de Imágenes y, además, presentar las diferentes fases de interés en el mundo de los datos en un Sistema de VA. De manera complementaria se desarrollan los temas de interés del ADI para la robótica de servicio basada en robots autónomos. Aquí se tratarán de manera práctica problemas de aplicación a los robots autónomos, lo cual permitirá a los estudiantes resolver problemas de implementación de sistemas de VA tanto en Robótica como en aplicaciones de cualquier otra índole y, sobretodo, le permitirá seguir en el futuro la rápida evolución que, como a todas las áreas tecnológicas, caracteriza a la Visión por Computadora. Análisis de Imágenes para Sistemas de Visión Artificial PROGRAMA Capítulo 1. Introducción al Análisis de Imágenes 1.1. Constitución de un Sistema de Visión por Computadora 1.2. Mundo de las imágenes y mundo de los datos 1.3. Problemas tratados en el mundo de los datos: Visualización, Procesamiento y Comunicación 1.4. Descripción y modelado de imágenes 1.5. Aplicaciones del Análisis de Imágenes Capítulo 2. Detección y Apareamiento de Puntos 2.1. Detección y Apareamiento de Puntos 2.2. Detector de Esquinas de Harris, Shi-Tomasi, Susan, Haralick, CSS 2.3. Espacio escala (“pirámides gaussianas”) 2.5. Métodos de detección, descripción y seguimiento de puntos: SIFT (Scale Invariant Feature Transform), SURF (Speeded Up Robust Feature), FAST (Features from Accelerated Segment Test), FAST-ER (FAST Enhanced Repeatability), VF-SIFT (Very Fast SIFT), etc. 2.6. Apareamiento de Puntos: Correlación cruzada, Template matching, Diferencias, etc.
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
2.7. Descriptores Binarios: BRIEF, ORB, BRISK, FREAK, etc. Capítulo 3. Segmentación de Imágenes 3.1. Criterios de Segmentación (Proximidad, similitud, continuidad, etc.) 3.2. Segmentación por continuidad Bordes: Gradientes, Laplaciano, Template Matching Contornos: Canny, Código de Freeman, Seguimiento de contornos, Transformada de Hough Contornos deformables (snakes) 3.3. Segmentación por similitud Detección de regiones: binarización, crecimiento, etiquetado, Quad-trees, Segmentación color Capítulo 4. Descripción de Imágenes (Modelado) 4.1. Momentos, Momentos invariantes 4.2. Firma, Código de Freeman y otros métodos Capítulo 5. Análisis de Movimiento 5.1. Block matching, k-means clustering, sustracción de fondo 5.2. Structure from motion 5.3. Flujo Óptico Correlación de fase, Métodos basados en bloques, Métodos de optimización discreta Métodos diferenciales: Buxton-Buxton, Black-Jepson, Horn Shunk, Lukas-Kanade Horn Shunk y variantes; Lukas Kanade y variantes Capítulo 6. Reconstrucción 3D 6.1. Detección de Pose 6.2. Reconstrucción 3D Monocular: Kanatani, Homografías, Perspectiva Inversa, Cosenos Directores 6.3. Reconstrucción 3D Estereoscopica: Geometría Epipolar, Matriz Fundamental, Homografías Capítulo 7. Aplicaciones a Robótica 7.1. Autolocalización, Odometría Visual, Egomotion 7.2. Visual SLAM (Simultaneous Localization and Maping) 7.3. Reconstrucción 3D, Image Registration 7.4. Robot@Home, RoboCup, FIRA
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
"Introducción a GNU/Linux y Python"
Dr. Luis Gerardo de la Fraga Professor and researcher of CINVESTAV-IPN Computer Science Department PhD in Computer Engineering, Autonomous University of Madrid, Spain, 1998. (Universidad Autónoma de Madrid, España) Mexico Date: Tuesday September 27, 2016 9:00-14:00 Languaje: Spanish
Abstract
Python (www.python.org) es un lenguaje de muy alto nivel, como también lo son perl, php, ruby y lua. No hay tipos y son lenguajes interpretados. Hoy es el ambiente de programación para sistemas de desarrollo como Raspberry PI (www.raspberrypi.org). En este tutorial se aprenderá cómo crear programas básicos en python dentro del ambiente de GNU/Linux. Saber un lengua- je de muy alto nivel reduce muchísimo los tiempos de programación, se pueden crear prototipos muy rápidamente, por lo que es muy conveniente aprender el uso de algunos de ellos.
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
"Control de Acceso al Medio en Redes Inalámbricas de Comunicaciones" Aldo Gustavo Orozco Lugo Professor and researcher of CINVESTAV-IPN Electrical Engineering Department PhD in United Kingdom of Great Britain and Northern Ireland, Date: Monday September 26, 2016 15:30-20:30
Languaje: Spanish Cuando un conjunto de dispositivos equipados con capacidades para comunicarse entre ellos operan a través de un medio compartido, se habla de que forman una red de comunicaciones. Para que estas redes puedan operar de manera satisfactoria es necesario que cada dispositivo del sistema trabaje de acuerdo a un protocolo de control de acceso al medio. Este protocolo se define como el conjunto de reglas que cada dispositivo obedece y que permiten que el medio sea utilizado de manera eficiente, en el sentido de que un máximo número de transmisiones exitosas sean llevadas a cabo en un determinado intervalo de tiempo. El objetivo de este curso es el de presentar ante el asistente el problema general de la comunicación a través de un medio compartido, explicando con cierto detalle las principales técnicas que se han propuesto para darle solución. Se revisarán tanto aspectos teóricos como prácticos, así como las investigaciones actuales y las tendencias a futuro.
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
SCHEDULE
Monday September 26, 2016
TUTORIAL COURSES - CINVESTAV TUT1: "Prótesis Cibernética"
Dr. Gerardo Alejandro Valentino Orozco, M.N.C Dan López Juárez, M.O.T. Leobardo Guerrero Beltrán, Dra. María de los
Ángeles Araceli Díaz Ruíz, M. en C. Álvaro Altamirano Altamirano, M. en I. Francisco Daniel Ruíz Díaz, Dr. Camilo Ríos
Castañeda Room 1
September 26-27, 2016
TUT2: Análisis de Materiales Electrónicos por Difracción de Rayos X
Dr. Arturo Escobosa Echavarría CINVESTAV
Ing. Jorge Pablo González Garibay Panalytical - México
Room 2
Hour TUT1 Hour TUT2
8:00-9:00- Registration 8:00-9:00 Registration
9:00-11:00 TUT1 9:00-11:00 TUT2
11:00-11:30 Coffee Break 11:00-11:30 Coffee Break
11:30-13:30 TUT1 11:30-14:00 TUT2
13:30-15:30 Lunch (not included) 14:00-15:30 Lunch (not included)
TUT3: Control de Acceso al Medio en Redes Inalámbricasde Comunicaciones
Dr. Aldo Gustavo Orozco Lugo CINVESTAV
Room: 2
14:30-15:30 Registration
15:30-17:30 TUT1 15:30-17:30 TUT3
17:30-18:00 Coffee Break 17:30-18:00 Coffee Break
18:00-20:30 TUT1 18:00-20:30 TUT3
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Tuesday September 27, 2016 TUTORIAL COURSES- CINVESTAV
TUT1: "Prótesis Cibernética" Dr. Gerardo Alejandro Valentino Orozco, M.N.C Dan
López Juárez, M.O.T. Leobardo Guerrero Beltrán, Dra. María de los Ángeles Araceli Díaz Ruíz, M. en C. Álvaro Altamirano Altamirano, M. en I. Francisco Daniel Ruíz
Díaz, Dr. Camilo Ríos Castañeda
Room 1 September 26-27, 2016
TUT4: Introducción a GNU/Linux y PythonDr. Luis Gerardo de la Fraga
CINVESTAV Room 2
Hour TUT1 Hour TUT4
8:00-9:00- Registration 8:00-9:00 Registration
9:00-11:00 TUT1 9:00-11:00 TUT4
11:00-11:30 Coffee Break 11:00-11:30 Coffee Break
11:30-13:30 TUT1 11:30-14:00 TUT4
13:30-15:30 Lunch (not included) 14:00-15:30 Lunch (not included)
TUT5: "Análisis de Imágenes para Sistemas de Visión Artificial" Dr. Juan Manuel Ibarra Zannatha
CINVESTAV Room 2
14:30-15:30 Registration
15:30-17:30 TUT1 15:30-17:30 TUT5
17:30-18:00 Coffee Break 17:30-18:00 Coffee Break
18:00-20:30 TUT1 18:00-20:30 TUT5
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Wednesday September 28, 2016
CONFERENCE: CEC - CENTRO DE EDUCACIÓN CONTINUA
Hour Room 1 Room 2 Room3 Main Auditorium
8:00-9:00 Registration 9:00-10:00 AC 1 BIO 1 SSM 1
10:00-10:30 Coffee Break
10:30-12:00 Opening Ceremony and Plenary Prof. Juan A.
Gallego-Juárez (PLE1 -BIO)
12:00-12:30 Coffee Break 12:30-14:30 AC 2 BIO 2 SSM 2 14:30-16:30 Lunch (not included) 16:30-17:30 AC 3 BIO 3 SSM 3
17:30-19:30 Welcome event
Thursday September 29, 2016 CONFERENCE: CEC- CENTRO DE EDUCACIÓN CONTINUA
Hour Room 1 Room 2 Room3 Main Auditorium
8:00-9:00 Registration 9:00-11:00 AC 4 NANO 1 CS 1
11:00-11:30 Coffee Break
11:30-12:30 Plenary : Prof. Adolfo Guzmán Arenas (PLE2 –CS)
12:30-13:00 Coffee Break
13:00-14:00 Plenary Prof. Liang Zhao (PLE3 -AC)
14:30-16:30 Conference Banquet (Included only authors of papers , 1 per paper, and attendees who paid their registration)
17:00-19:00 Mexico City walking tour: Historic Center (Centro Histórico)
Friday September 30, 2016 CONFERENCE: CEC-CENTRO DE EDUCACIÓN CONTINUA
Hour Room 1 Room2 Room3 Main Auditorium
8:00-9:00 Registration 9:00-11:00 COMM 1 BIO 4 /BIOM 1 SSM 4
11:00-11:30 Coffee Break
11:30-12:30 Plenary: Dr. Edgar Sánchez Sinencio (PLE4 -SSM)
12:50-14:10 AC 5 NANO 2 SSM 5 14:30-16:30 Closing ceremony, Closing Cocktail
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Sessions CODE SESSIONS
PLE Plenary
AC AUTOMATIC CONTROL
BIO BIOMEDICAL ENGINEERING
COMM COMMUNICATIONS SYSTEMS
CS COMPUTER SCIENCE AND COMPUTER ENGINEERING
SSM SOLID-STATE MATERIALS, ELECTRON DEVICES AND INTEGRATED CIRCUITS
NANO NANOTECHNOLOGY
BIOM BIOMIMETICS
Plenaries PLE1-BIO " Ultrasonic Technologies in Biomedical and Industrial Engineering, Transfer From Research To Industry"Prof. Juan A. Gallego-Juárez Instituto de Tecnologías Físicas y de la Información “L. Torres Quevedo” Consejo Superior de Investigaciones Científicas (CSIC) Madrid (España) http://www.itefi.csic.es/es/personal/gallego-juarez-juan-antonio Wednesday September 28, 2016 PLE2-CS “La computación al inicio del tercer milenio”Prof. Adolfo Guzmán Arenas Centro de Investigación en Computación (CIC) del Instituto Politécnico Nacional (IPN) Mexico City, Mexico http://alum.mit.edu/www/aguzman Thursday September 29, 2016 PLE3-AC: “Machine Learning in Complex Networks - Modelling and Applications”Prof. Liang Zhao Professor and the Head of the Department of Computing and Mathematics (DCM). University of São Paulo (USP) Brazil http://dcm.ffclrp.usp.br/~zhao/ Thursday September 29, 2016 PLE4 –SSM: “ Internet of Things: Hardware and Applications ” Prof. Edgar Sánchez Sinencio Texas A&MUniversity, College Station, TX, USA Friday September 30, 2016
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
TECHNICAL PROGRAM
Hour Automatic Control (AC)
Session AC 1 Wednesday September 28, 2016 9:00-10:00 Session Chair: Fernando Castaños
9:00-9:20 R. Juárez, V. Azhmyakov, S.K. Gadi, F.G. Salas
Robust Control for a Class of Continuous Dynamical System Governed by Semi-Explicit DAE with Data -Sample Outputs
9:20-9:40 J.E. Ruíz-Duarte, A.G. LoukianovArbitrary References Output Tracking in Linear Systems
9:40-10:00 V. Azhmyakov, R. Juárez, S.K. Gadi, L.A. Guzman TrujilloAttractive Ellipsoids Based Robust Control Design of Switched Systems: a Geometrical Approach
Session AC 2 Wednesday September 28, 2016 12:30-14:30 Session Chair: Vadim Azhmyakov
12:30-12:50 Geovanni Martínez
Intensity-Difference Based 3D Video Stabilization for Planetary Robots
12:50-13:10 H.E. De Cos-Cholula, G.U. Díaz-Arango, L. Hernández-Martínez, A. Sarmiento-ReyesAn Homotopy Path Planning Method with Automatic Fixed Value Assignation of Repulsion Parameter for Mobile Robotics
13:10-13:30 A. Perrusquía, C. Tovary, A. Soria, J.C. MartínezRobust Controller for Aircraft Roll Control System using Data Flight Parameters
13:30-13:50 A.J. Malo Tamayo Study of a Small Aircraft for Control Development and UAV task
13:50-14:10 S.M. Orozco-Soto, R.S. Núñez-Cruz, J.M. Ibarra-ZannathaActive Disturbance Rejection Control for Humanoid Stable Walking
14:10-14:30 E. Garcia Avila, Wen Yu, Maarouf Saad, Jawhar GhommamStable PID Tracking Control with Application to a 7-DoF Exoskeleton Robot
Session AC 3 Wednesday September 28, 2016 16:30-17:30 Session Chair: Joaquín Collado
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
16:30-16:50 J.E. Carvajal-Rubio, O. BegovichBank of Leak Diagnosis Algorithms for Pressurized Pipelines
16:50-17:10 J.M. Sandoval, V. Cárdenas, M.A. Barrios, M. González, A. Aganza Torres Large Scale Photovoltaic Structures with Medium-Frequency Isolation
17:10-17:30 R. Díaz-Sepulveda, F. Ornelas-Téllez, E.N. SánchezReal-time Optimal Tracking Control for a Three-phase Inverter
Session AC 4 Thursday September 29, 2016 9:00-11:00 Session Chair: Sabine Mondie
9:00-9:20 J.C. Arceo, D. Vázquez, V. Estrada-Manzo, R. Márquez, M. Bernal
Nonlinear Convex Control of the Furuta Pendulum Based on its Descriptor Model
9:20-9:40 E. Jiménez-Rodríguez, J.D. Sánchez-Torres, D. Gómez-Gutiérrez, A.G. Loukianov Predefined-Time Tracking of a Class of Mechanical Systems
9:40-10:00 J. Machín Almeida, A.G. Loukianov, J. Cañedo CastañedaRobust Observer-Based Adaptive Sliding Modes Control of Synchronous Motor
10:00-10:20 E.A. Vázquez, J. ColladoMonodromy Operator Approximation of Periodic Delay Differential Equations by Walsh Functions
10:20-10:40 Satyam Paul, Wen YuStable Active Vibration Control of Building Structure Subjected to Bidirectional Earthquake
Session AC 5 Friday September 30, 2016 12:50 - 14:10 Session Chair: Alberto Soria.
12:50-13:10 N. Aguillón, J. Collado
Stability Chart of Hill’s Equation by a Sturm-Liouville Approach
13:10-13:30 M. Ramírez, J. ColladoAttenuation Vibration by Parametric Excitation using the Meissner Equation
13:30-13:50 J.J. Montesinos-García, R. Martínez-Guerra, Sergio M. Delfín-Prieto Color Image Encryption Using Chaotic Systems Synchronization
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Hour Biomedical Engineering (BIO) Session BIO 1 Wednesday September 28, 2016 9:00-10:00 Session Chair: Arturo Vera Hernández
9:00-9:20 Norma Ramirez, Rutilio Nava Martínez, M.F Escalante Paredes, M.M Álvarez Cervera and C
Castillo Ortiz C. Development of a Detection System Microaneurysms in Color Fundus Images
9:20-9:40 Jonathan Hernandez-Capistran and Jorge F. Martinez-Carballido Thesholding Methods Review for Microcalcifications Segmentation on Mammography Images in Obvious, Subtle, and Cluster Categories
9:40-10:00 Laura Juliana Uribe-Valencia and Jorge Francisco Martínez-Carballido Thesholding Methods Review for the Location of the Optic Disc in Retinal Fundus Color Images
Session BIO 2 Wednesday September 28, 2016 12:30-14:30 Session Chair: Blanca Tovar Corona
12:30-12:50 Jorge Munoz, Yuriy S. Shmaliy, Reynel Olivera and Osbaldo Vite
Improving Approximation of Jitter Probability in the Breakpoints of Simulated Copy Number Alterations
12:50-13:10 Jennifer Ladd Parada, Carlos Alvarado Serrano, Juan Manuel Gutierrez Salgado and Christopher James Effects of negative affective sounds on P300
13:10-13:30 María De Lourdes Corzo Cuesta and Carlos Alvarado SerranoAn Algorithm for QT Dispersion Analysis: Validation and Application in Chronic Kidney Disease
13:30-13:50 Sara Lilia Lima-Herrera, Carlos Alvarado-Serrano and Pablo Rogelio Hernández-RodríguezFetal ECG extraction based on Adaptive Filters and Wavelet Transform: Validation and Application in Fetal Heart Rate Variability Analysis
13:50-14:10 Alvaro Altamirano, Arturo Vera Hernandez, Lorenzo Leija Salas and Didier Wolf Myoelectric signal analysis using Hilbert-Huang Transform to identify muscle activation features
14:10-14:30 Claire Closset, Arturo Vera, Lorenzo Leija and Josefina GutiérrezA Comparison Between French and Mexican Technovigilance Process
Session BIO 3 Wednesday September 28, 2016 16:30-17:30
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Session Chair: Carlos Alvarado Serrano
16:30-16:50 Adriana Leticia Vera Tizatl, Arturo Vera Hernández, Lorenzo Leija Salas, Sergio Rodríguez Cuevas, Mario Ibrahin Gutiérrez Velasco, Carlos Alberto Ramírez Martínez, Claudia Elizabeth Vera Tizatl and Pablo Rogelio Hernández Rodríguez Electric Field Distribution Obtained by Using the Finite Element Method and 3D Reconstruction of a Breast Carcinoma: Approach to the Electroporation of Deep-seated Tumors by Using Two Needle Electrodes
16:50-17:10 Carlos Alberto Ramírez Martínez, Adriana Leticia Vera Tizatl, Mario Ibrahín Gutiérrez Velasco, Arturo Vera Hernández, Lorenzo Leija Salas, Pablo Rogelio Hernández Rodríguez, Sergio Rodriguéz Cuevas and Claudia Elizabeth Vera Tizatl Modeling of Electric Field and Joule Heating in Breast Tumor during Electroporation
17:10-17:30 Adriana Manzanárez Salmerón, Jaime Ernesto Lara Aguayo, Mario Ibrahin Gutiérrez Velasco, Arturo Vera Hernández and Lorenzo Leija Salas Influence of the Surrounding Tissues in the Radiation Pattern of Microcoaxial Antenna for the Treatment of Breast Tumors
Session BIO 4/BIOM 1 Friday September 30, 2016 9:00-11:00 Session Chair: Juan Manuel Gutiérrez Salgado
9:00-9:20 Rafael Bayareh Mancilla, Mario Ibrahin Gutierrez Velasco, Arturo Vera Hernández and
Lorenzo Leija Salas Simulation of the temperature distribution on a diabetic foot model: a first approximation
9:20-9:40 Daniel Alberto Hernández Chávez, Victor Hugo Contreras Machado, Mario Ibrahin Gutiérrez Velasco, Lorenzo Leija Salas and Arturo Vera Hernández Modeling a Conical Applicator for High Intensity Focused Ultrasound with the Finite Element Method
9:40-10:00 Carlos Diaz, Mónica Vázquez Hernández, Martín Fuentes, Joel Duran and Pedro AcevedoPulse Generator for Ultrasonic PZT and PVDF Transducer Arrays Based on a Programmable System-on-Chip (PSoC)
10:00-10:20 Andrea Almaraz HernándezBiomimetic prototype to the physio-anatomy of the cactus Pachycereus Pecten-Aboriginum, for application to catchment system atmospheric dew water.
10:20-10:40 F. Daniel Ruiz Díaz, G. Alejandro Valentino Orozco and A. Altamirano-AltamiranoExternal knee prosthesis with four bar linkage mechanism
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Hour Computer Science and Computer Engineering (CS) Session CS 1 Thursday September 29, 2016 9:00-11:20 Session Chair: Francisco Rodríguez Henríquez
9:00-9:20 Li Xiaoou, Zhang Zhaozhao and Yu Wen
Dynamic Feedforward Network Architecture Design Based on Information Entropy
9:20-9:40 Andrés Cortés-Dávalos and Sonia MendozaLayout Planning for Academic Exhibits using Augmented Reality
9:40-10:00 Sergio Alvarado, Adriana Lara, Víctor Sosa and Oliver SchuetzeAn Effective Mutation Operator to Deal with Multi-objective Constrained Problems: SPM
10:00-10:20 Oliver Cuate, Adriana Lara and Oliver SchuetzeA Local Exploration Tool for Linear Many Objective Optimization Problems
10:20-10:40 Angel Pozos, Edgar Castillo, Miguel Chavez and Leonardo Trujillo Modeling Micro-Channel Plates as Astronomical Detectors of UV Radiation
10:40-11:00 Pedro Ivan Salas and Raúl Ernesto GonzálezAuthenticated Encryption Based on Finite Automata Cryptosystems
11:00-11:20 Frank Alberto Ibarra Hernández and Carlos Alberto CanesinDistribution Management System and Control Architecture through a FPGA device for Electrical Distribution Feeders
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Hour Communications Systems (COMM) Session COMM 1 Friday September 30, 2016 9:00-11:00 Session Chair: Giselle M. Galván Tejada
9:00-9:20 Lizeth Lopez-Lopez, Marco Cardenas-Juarez, Enrique Stevens-Navarro, Ulises Pineda-Rico and
Aldo G. Orozco-Lugo Superimposed Training-based Detector for Spectrum Sensing in Cognitive Radio
9:20-9:40 Miguel Vazquez-Olguin, Yuriy Shmaliy and Oscar Ibarra-Manzano Improving Robustness of Distributed Filtering for Sensor Networks Using FIR Filtering
9:40-10:00 Miguel Vazquez-Olguin, Yuriy Shmaliy and Oscar Ibarra-Manzano Design of Blind Distributed UFIR Filter based on Average Consensus for WSNs
10:00-10:20 Sergio-Jesús González-Ambriz, Rolando Menchaca-Mendez and Mario-Eduardo Rivero-Angeles 5GTRADIS: A Novel Traffic Distribution Mechanism for 5G Heterogeneous Networks
10:20-10:40 Giselle Monserrat Galván Tejada, Ruben Flores Leal, Francisco Sanchez-Gomez and Victor Barrera-Figueroa On the Importance of the Vertical Radiation Pattern on Simulations of WSNs
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Hour Nanotechnology (Materials and Applications) (NANO) Session NANO 1 Thursday September 29, 2016 9:00-11:00 Session Chair: Arturo Escobosa Echavarría
9:00-9:20 Jacob Morales, Maria De La Luz Olvera Amador and Arturo Maldonado Alvarez
Synthesis, Characterization and Photocatalytic activity of TiO2 Powders
9:20-9:40 Aruna Devi Rasu Chettiar, Latha Marasamy, Rohini Mohan, P.Reyes Figueroa, Velumani Subramaniam, Adolfo Tavira Fuentes, Miguel Galván Arellano, F. Javier Ramírez Aponte and Jaime Santoyo Salazar Facile One Pot Synthesis of Single Phase Kesterite Cu2ZnSnS4 Nanocrystals
9:40-10:00 Viridiana Mata Frayre, Maria De La Luz Olvera Amador and Arturo Maldonado AlvarezEffect of milling speed on the precursor Zinc acetylacetonate destined to obtain ZnO thin films
10:00-10:20 Manuel Alejandro Perez Guzman, Rebeca Ortega Amaya, Yasuhiro Matsumoto, Jaime Santoyo Salazar and Mauricio Ortega Lopez Synthesis and characterization of magnetite-graphene oxide nanocomposite
10:20-10:40 Maria Del Rosario Herrera Rivera, Maria De La Luz Olvera Amador and Arturo Maldonado Alvarez Particle Size Effect On Gas Sensing Properties Of ZnO Pellets
10:40-11:00 Latha Marasamy, Aruna Devi Rasu Chettiar, P.Reyes Figueroa, Rohini Mohan, Velumani Subramaniam, Adolfo Tavira Fuentes, Miguel Galván Arellano and F. Javier Ramírez Aponte Influence of Reaction Time on Cu(In,Ga)Se2 Particle Synthesis by Thermal Decomposition Method
Session NANO 2 Friday September 30, 2016 12:50-14:10 Session Chair:. María de la Luz Olvera Amador
12:50-13:10 Irving Josué González Chan and Andrés Iván Oliva Arias
Chemical Bath Deposited Zn(S, OH, O) Films Near Room Temperature: Physicochemical Considerations
13:10-13:30 Aldo Yair Tenorio, Miguel Russell Matus Muñoz, Ma De La Luz Olvera, Victor Manuel Altuzar Aguilar and Claudia Oliva Mendoza Barrera Automatization and control of home-made micro injection pumps for a microfluidic system
13:30-13:50 Miguel Angel Lopez, Mauricio Ortega and Yasuhiro MatsumotoVertically aligned ZnO nanorod arrays grown by chemical bath deposition on bare- and ITO-coated glass substrates
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
13:50-14:10 Ana María Pineda and María De La Luz Olvera
Nanoparticles of Zinc Oxide Obtained by Water in Oil Microemulsion System
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Hour Solid-state materials, Electron Devices and Integrated Circuits (SSM) Session SSM 1 Wednesday September 28, 2016 9:00-10:00 Session Chair: Mario Alfredo Reyes Barranca
9:00-9:20 Benito Granados-Rojas, Mario Alfredo Reyes-Barranca, Griselda Stephany Abarca-Jimenez,
Luis Martin Flores-Nava and Jose Antonio Moreno-Cadenas 3-layered Capacitive Structure Design for MEMS Inertial Sensing
9:20-9:40 Carlos Ramon Baez Alvarez, Mónico Linares Aranda, Alfonso Torres Jacome, Wilfrido Calleja Arriaga and Javier de La Hidalga Wade A Set of Test Structures for the Development of a CMOS-MEMS Technology
9:40-10:00 Sergio Domínguez, Alfredo Reyes, Luis M. Nava, Jose A. Moreno and Salvador Mendoza-Acevedo Assessment of the Possibility to Couple a Photo Sensor to a Floating-Gate MOS Transistor.
Session SSM 2 Wednesday September 28, 2016 12:30-14:30 Session Chair: Gabriel Romero Paredes
12:30-12:50 Vinoth Kumar Jayaraman, Yasuhiro Matsumoto, Arturo Maldonado and Maria De La Luz
Olvera Effect of substrate position on structural, morphological, and optical properties of reactively sputtered ZnO thin films
12:50-13:10 Saraí Vázquez Y Parraguirre, Antonio Olivares Vargas, Ismael Cosme Bolaños, Svetlana Mansurova, Adrian Itzmoyotl Toxqui and Andrey Kosarev Study of optoelectronics properties of Indium Tin oxide films fabricated by Sputtering in Oxygen atmosphere.
13:10-13:30 Venkata Krishna Karthik Tangirala, Maria De La Luz Olvera Amador, Arturo Maldonado and Heberto Gomez Pozos Effect of Al2O3 on the morphological and gas sensing properties of SnO2 pellets
13:30-13:50 José Díaz-Bernabé and Arturo Morales-AcevedoSimulation of a Double-stage Micro-Inverter for Grid-Connected Photovoltaic Modules
13:50-14:10 Magaly Ramírez-Como, Victor Balderrama and Magali EstradaPerformance Parameters Degradation of Inverted Organic Solar Cells Exposed Under Solar and Artificial Irradiance, Using PTB7:PC70BM as Active Laye
14:10-14:30 Hiram Martinez, Andrey Kosarev, A.B. Pevtsov, A.V. Zherzdev, N.A. Feoktistov and Yuriy Kudriavtsev High Contrast Distributed Bragg Reflectors Based on Si:H/SiC:H PECVD Multilayer Structure
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Session SSM 3 Wednesday September 28, 2016 16:30-17:50 Session Chair: Felipe Gómez Castañeda
16:30-16:50 Carlos Morales-Perez, Jose Rangel-Magdaleno, Hayde Peregrina-Barreto, Israel Cruz-Vega
and Juan Ramirez-Cortes FPGA Implementation of Orthogonal Matching Pursuit Algorithm
16:50-17:10 Nima Taherinejad, Sai Manoj P. D., Michael Rathmair and Axel Jantsch Fully Digital Write-in Scheme for Multi-Bit Memristive Storage
17:10-17:30 Aurea Edna Moreno Mojica and Zabdiel Brito-BritoModelling of Single-ended Interconnects Using Surrogate Model and DoE Tech
17:30-17:50 José A. Moreno-Cadenas, Felipe Gómez-Castañeda, Alvaro Anzueto-Rios and Luis Enrique Hernández-Gómez Fuzzy Inference System for Region Segmentation Using the YCbCr Color Model
Session SSM 4 Friday September 30, 2016 9:00-11:00 Session Chair: Yasuhiro Matsumoto Kuwahara
9:00-9:20 Yoanlys Hernandez Barrios, Fernando Avila Herrera, Magali Estrada Del Cueto, Antonio
Cerdeira Altuzarra, Oana Moldovan and Benjamin Iñiguez Modeling the Variation of Threshold Voltage, Mobility Factor and Saturation Coefficient in Amorphous Indium-Gallium-Zinc Oxide Thin Film Transistors
9:40-10:00 Santiago Antonio Cabañas-Tay, Alfredo Morales-Sánchez and Carlos Domínguez-HornaEffect of the Active Layer Thickness on the Electrical and Electroluminescent Properties in Silicon Rich Oxide Based Light Emitting Capacitors
10:00-10:20 Santiago Antonio Cabañas-Tay, Alfredo Morales-Sánchez, Liliana Palacios-Huerta and Mariano Aceves-Mijares UV Electroluminescence from ITO/SRO/p-Si and ITO/SRN/SRO/p-Si Structures
10:20-10:40 Sarai Zárate, Ismael Cosme, Hiram Enrique Martínez, Svetlana Mansurova and Andrey Kosarev Effect of Germane in gas phase on Electronic Properties of GeXSiY:H alloys deposited by RF Plasma Discharge
10:40-11:00 Hiram Martinez, Darwin Mayorga Cruz, Svetlana Mansurova, Ismael Cosme and Andrey Kosarev Determination of photoelectric parameters of hydrogenated amorphous silicon by the photoelectromotive-force technique
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Session SSM 5 Friday September 30, 2016 12:50-14:10 Session Chair: Alejandro Medina
12:50-13:10 Alejandro Campos-Cruz, Esteban Tlelo-Cuautle and Guillermo Espinosa-Flores-Verdad
Advances in BTI modeling for the design of reliable ICs
13:10-13:30 Luis Castellanos, Josué Aguilar and Miguel AlvaradoA LOFAR and Beamforming Implementation in a FPGA for a Digital Passive SONAR
13:30-13:50 Santiago Medina-Vazquez, Marco Gurrola-Navarro, Carlos Bonilla-Barragan and Martín Villegas A Technique to Improve the Transconductance in Amplifiers
ABSTRACTS
Automatic Control (AC) Session AC 1 Wednesday September 28, 2016 9:00-10:00 Session Chair: Fernando Castaños Robust Control for a Class of Continuous Dynamical System Governed by Semi-Explicit DAE with Data -Sample Outputs Raymundo Juarez, Vadim Azhmyakov, Suresh Kumar Gadi and Francisco Guillermo Salas. Abstract: This paper addresses the problem of robust control for a class of nonlinear dynamical systems in the continuous time domain. We deal with nonlinear models described by differential algebraic equations (DAEs) in the presence of bounded uncertainties. The full model of the control system under consideration is completed by linear sampling-type outputs. Main contribution of present manuscript is the proposal of a linear state feedback control design for this type of uncertain nonlinear system obtaining the required stability and robustness. Due to the need to the state feedback there is a need of the implementation of a Luenberguer observer. Finally, the applicability of the proposed method is illustrated by a computational example. A brief discussion on the main implementation issue is also included. A brief discussion on the main implementation issue is also included. Arbitrary References Output Tracking in Linear Systems Jorge Enrique Ruiz Duarte and Alexander Loukianov. Abstract:The problem of arbitrary references output tracking for linear systems is solved through an approximate required steady state. This estimate is obtained using a dynamic estimator based on a state observer. The state-feedback control law is proposed using this estimate and the closed-loop system is then analyzed. The simulations show the effectiveness of the proposed technique. Attractive Ellipsoids Based Robust Control Design of Switched Systems: a Geometrical Approach Vadim Azhmyakov, Raymundo Juarez, Suresh Kumar Gadi and Luz Adriana Guzman Trujillo. Abstract: This contribution deals with a robust control design for general switched affine control systems. Dynamical models under consideration are described by ordinary differential equations involving a switching mechanism and in the presence of bounded uncertainties. The design procedure we
analyse is based on the newly elaborated attractive ellipsoids method ([33]). The stability and robustness of the resulting closed-loop system involves an abstract Clarke stability theorem. A short discussion on the obtained analytic results and possible applications and extensions is also included. Session AC 2 Wednesday September 28, 2016 12:30-14:30 Session Chair: Vadim Azhmyakov Intensity-Difference Based 3D Video Stabilization for Planetary Robots Geovanni Martinez. Abstract: In this paper, an algorithm to remove the camera jitter from image sequences captured by planetary robots is investigated. First, the frame to frame surface 3D motion with respect to the camera coordinate system is estimated and integrated over time. The estimation is performed by maximizing a likelihood function of the frame to frame intensity differences measured at key observation points. Then, the jitter is determined as the perspective projection of the difference between the integrated surface 3D translation and a smoothed version of it. Finally, the stabilized video is synthesized by moving the entire content of each image with a displacement vector having the same magnitude but opposite direction to the estimated jitter for that image. The experimental results with synthetic data revealed real time operation with low latency and a reduction of the jitter in a factor of 20. Experimental results with real image sequences captured by a rover platform in indoor and outdoor conditions show very reliable and encouraging stabilization results. An Homotopy Path Planning Method with Automatic Fixed Value Assignation of Repulsion Parameter for Mobile Robotics Héctor Eduardo De Cos Cholula, Gerardo Ulises Díaz Arango, Luis Hernández Martínez and Arturo Sarmiento Reyes. Abstract: The present work proposes the implementation of a collision-free path with automatic assignment of repulsion parameters, the solution space where this path is located includes rectangle-shape and circled-shape obstacles with different dimensions, all this information generates a Nonlinear Algebraic Equations System (NAES). The Homotopic Path Planning Method (HPPM) is being used to find points that compose the solution of this system based on the Homotopic Continuation Method (HCM) and complemented with the use of the Spherical Algorithm (SA). An automatic assignment alternative is being proposed with fixed Repulsion Parameter
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
based on the obstacle location about the ideal path and taking into account any possible obstacle neighborhood. Robust Controller for Aircraft Roll Control System using Data Flight Parameters Adolfo Perrusquia, Carlos Tovar, Alberto Soria and Juan Carlos Martínez. Abstract: In this paper we present the design of an autopilot for roll angle displacement of an aircraft to a desired orientation using real flight data. Matlab Robust Control Toolbox is used for the synthesis of the stabilizing K controller. The model plant is partitioned in terms of the number of perturbations, the number of control inputs, the number of errors, and the number of outputs. Experimental results are presented for a Radio Controller Radlian Pro model aircraft. Study of a Small Aircraft for Control Development and UAV task Alejandro Malo Tamayo. Abstract: In this work, we consider a small aeroplane with the aim of using it as a test platform for the system identification, control, navigation and autonomous flight. The results of three of configurations considered are presented here, the original un-instrumented, the original instrumented and the modified instrumented aeroplane. The resultant models are nonlinear, and their behaviour depends on their stability and control derivatives found during the analysis. The main result present how the eigen values of the linearised model in equilibrium evolve for the angles of attack within the flight envelope. Since the original instrumented model behaviour exhibit undesired characteristics, we propose modifications of the original aeroplane and present the results. The models are also useful to make simulations under various perturbations and controls; an example is included. Active Disturbance Rejection Control for Humanoid Stable Walking Santos Orozco. Abstract: This paper presents an application of the active disturbance rejection control approach for humanoid robot stable walking, which is a control strategy based on the extended state observer and cascade integrator canonical form features from modern control theory to deal with disturbances, nonlinearities and unmodeled dynamics. The proposed controller is based on the 3D linear inverted pendulum walking pattern generation, and is designed to be triggered only if disturbance signals are detected. This control technique was tested on the model of a humanoid robot using numerical simulation software, showing successful results that motivate to implement it in a real humanoid robot platform.
Stable PID Tracking Control with Application to a 7-DoF Exoskeleton Robot Edgar Garcia Avila, Wen Yu, Maarouf Saad and Jawhar Ghommam. Abstract: In this paper, we extend the popular PID regulation control into PID tracking control by using a filtered error and modifying the reference signal. In order to decrease the gains of PID controller, a neural compensator is enclosed. The global and semiglobal asymptotic stability of this PID tracking control with neural compensation are proposed. The proposed PID tracking control is validated with the upper limb exoskeleton of École de Technologie Supérieure (ETS). Session AC 3 Wednesday September 28, 2016 16:30-17:30 Session Chair: Joaquín Collado Bank of Leak Diagnosis Algorithms for Pressurized Pipelines Jose Eduardo Carvajal Rubio and Ofelia Begovich Mendoza. Abstract: In this work a bank of leak diagnosis algorithms, which operate in parallel, is proposed with the aim to locate, in a more reliable way a water leak in a pressurized pipeline. In order to obtain a better estimation of the leak position, some results are discarded based on if these are a far estimation from other. Finally, the methodology is implemented in a prototype and the results of two experiments are presented in order to evaluate the reliability of the bank and its results are analyzed. This paper considers that there are flow rate and pressure head sensors at the ends of the analyzed pipeline. Large scale photovoltaic structures with medium-frequency isolation José Sandoval, Victor Cardenas, Manuel Barrios, Mario González and Alejandro Aganza-Torres. Abstract: Energy generation via Photovoltaic (PV) technologies has increased in the last years. Large-scale PV generation has attracted interest among countries due to low operation cost and wide PV resource disposition. However, some operative challenges in large scale PV plants had been detected: power imbalance, low power quality in terms of total harmonic distortion (THD), power factor and conversion efficiency, can be mentioned. This paper is focused on topologies featuring medium-frequency (MF) isolation and presents a review of different approaches to solve those operative issues. Medium-frequency isolation reduces current and improves efficiency, reliability, and provides isolated DC sources for power electronics converters, and can replace bulky low-frequency transformers, thus reducing PV system volume. Simulations of three-phase 10 kW PV systems are presented: MF link PV system, Delta inverter and a PV system based on a matrix converter.
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Real-time Optimal Tracking Control for a Three-phase Inverter Reynaldo Diaz-Sepulveda, Fernando Ornelas-Tellez and Edgar Sánchez. Abstract: This paper presents a robust optimal nonlinear control scheme for a three-phase inverter, which is connected to the utility grid through an L filter. The control objective is the regulation of the active and reactive power injected to the utility grid. The optimal controller synthesis is based on the optimal control theory, where it is considered the minimization of a performance index (cost functional), which results in an efficient control strategy. Real-time experiments are presented to demonstrated the effectiveness of the proposed control methodology.
Session AC 4 Thursday September 29, 2016 9:00-11:00 Session Chair: Sabine Mondie
Nonlinear Convex Control of the Furuta Pendulum Based on its Descriptor Model Juan Carlos Arceo, David Vázquez, Victor Estrada-Manzo, Raymundo Márquez and Miguel Bernal. Abstract: This paper presents simulation and real-time results of a nonlinear control scheme for stabilization of the Furuta pendulum. Instead of the traditional state-space model, the proposal makes use of a convex exact rewriting of the nonlinear model in its descriptor form, which naturally arises in Lagrange-Euler dynamics. Convexity proves to be useful when combined with an extension of the direct Lyapunov method for singular systems, since it leads to design conditions in the form of linear matrix inequalities, which allow the use of convex programming techniques. Moreover, real-time implementation issues such as actuator saturation limits and decay rate are straightforwardly incorporated in the design. Numerical advantages of the descriptor convex model over the state-space representation are also discussed. Predefined-Time Tracking of a Class of Mechanical Systems Esteban Jiménez Rodríguez, Juan Diego Sánchez-Torres, David Gómez and Alexander G. Loukianov. Abstract: In this paper the problem of predefined-time exact tracking in fully actuated mechanical systems is solved, assuming the availability of the state and the desired trajectory (as well as its two first derivatives) measurements. This is accomplished introducing the idea of second-order predefined-time stable systems, which is based on the nested application of the first-order predefined-time stabilizing function. As an example, the proposed solution is applied over a two-link planar manipulator and numerical simulations are conducted to show its performance.
Robust Observer-Based Adaptive Sliding Modes Control of Synchronous Motor Jediael Machin, Alexander G. Loukianov and Jose Manuel Cañedo Castañeda. Abstract: Based on a nonlinear complete order model of a synchronous motor, a robust sliding mode observer-based control scheme is proposed. To design this scheme, a sliding mode (SM) super-twisting control algorithm and adaptive backstepping technique, are implemented. A nonlinear observer with a 3rd order SM super-twisting algorithm is designed to estimate the rotor fluxes in presence of rotor and stator resistances variations. The simulation results show the effectiveness of the proposed controller. Monodromy Operator Approximation of Periodic Delay Differential Equations by Walsh Functions Eli Abraham Vazquez and Joaquin Collado. Abstract: Using Walsh functions the solution of a linear periodic delay differential equation is approximated. The monodromy operator is then constructed based in the solution obtained. Dominant eigenvalues of the monodromy operator are calculated to determine the stability charts of the delayed Mathieu equation. Stable Active Vibration Control of Building Structure Subjected to Bidirectional Earthquake Satyam Paul and Wen Yu Liu. Abstract: Proportional-derivative (PD) is highly favored algorithms in terms of industrial applications. Although, there are infrequent broadcasted theory results of PD controller in connection to structural vibration control applications. In this paper, we analyze the stability of the active vibration control system for both the linear model and nonlinear model of building structures under bidirectional seismic excitation taking into consideration lateral-torsional vibrations. We state comprehensive sufficient conditions for choosing the PD gains. The stability theories are verified through numerical simulations and a two-storey building prototype. The extracted results validates our theory analysis.
Session AC 5 Friday September 30, 201612:50 - 14:10Session Chair: Alberto Soria. Stability Chart of Hill’s Equation by a Sturm-Liouville Approach Nestor Aguillon and Joaquin Collado.
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Abstract: This paper introduces a Sturm-Liouville based algorithm to compute the stability chart of Hill's equation. It will be shown that finding the borders of the instability tongues of Hill's equation can be set as a Sturm-Liouville boundary value problem, and how this problem can be set as an eigenvalue-eigenvector problem of a differential matrix $L^H$ using a finite-difference approximation of the first and second derivatives of a scalar function. Attenuation Vibration by Parametric Excitation using the Meissner Equation Miguel Luis Ramírez Barrios and Joaquin Collado. Abstract: A method for vibrations attenuation applying parametric excitation is described. The parametric excitation is introduced in the stiffness of the mechanical system. General conditions for stability are derived by solving analytically the Meissner equation in two dimensions and using the symplectic properties of the monodromy matrix. Due to the solution of Meissner equation, all the computations can be implemented without using numerical methods. Color image encryption using chaotic systems synchronization Juan Javier Montesinos Garcia, Rafael Martinez-Guerra and Sergio Miguel Delfin Prieto. Abstract: In this paper we propose the use of chaotic systems on a master-slave scheme for secure communications. This cryptosystem allows to use the advantages of block cyphers in color images, these features permits us to encrypt messages as large as images without the need of keys bigger than the transmitted data, this is achieved by using the synchronization of two chaotic oscillators and fractals such as Julia sets. Two different receivers will be presented; the first one is an exponential polynomial observer and the second is a reconstruction of the states based on the properties of Liouvillian systems, the latter retaining the same security features but with a more simple implementation and faster encryption and decryption times.
Biomedical Engineering (BIO) Session BIO 1 Wednesday September 28, 2016 9:00-10:00 Session Chair: Arturo Vera Hernández Development of a Detection System Microaneurysms in Color Fundus Images Norma Ramirez, Rutilio Nava Martínez, M.F Escalante Paredes, M.M Álvarez Cervera and C Castillo Ortiz C.
Abstract: The detection of microaneurysms (MAs) in color fundus images remains an open issue in the medical image processing due to the low availability of reliable programs. In this paper, we present a system for automated detecting of MAs based with the techniques Hessian matrix and contrast limited adaptive histogram equalization (CLAHE). Thus, feature extraction as optical disc, vascular tree and other pathologies for reducing false positives. To evaluate the detection system MAs, we examined 81 color fundus images, classified by conditions and compared with fluorescence images, these are angiograms. The sensitivity gave better results in phase mild nonproliferative diabetic retinopathy so this system could be used in early detection of the disease. Thesholding Methods Review for Microcalcifications Segmentation on Mammography Images in Obvious, Subtle, and Cluster Categories Jonathan Hernandez-Capistran and Jorge F. Martinez-Carballido. Abstract: Microcalcifications are the earliest sign of breast carcinoma. Their typical size is about 1 mm, which is why it is difficult to be detected for an expert. Therefore, a tool that eases their visualization becomes relevant. Segmentation gives candidate areas that could contain microcalcifications. A preprocessing step can improve segmentation performance but the algorithm becomes database dependent. This paper compares four commonly used thresholding techniques to segment mammography images sections divided in three groups: obvious, subtle and clusters; due to their microcalcification contents. The purpose of this paper it is to show what technique has a better performance in special relation with mammography images. Best performers are Entropy (68.8%), and Intermodes (50.9%); but further research to significantly improve performance on subtle and cluster microcalcifications considering non-bimodal histograms. Thesholding Methods Review for the Location of the Optic Disc in Retinal Fundus Color Images Laura Juliana Uribe-Valencia and Jorge Francisco Martínez-Carballido. Abstract: This work compares Triangle, Maximum Entropy and Mean Peak thresholding methods to locate the optic disc in color fundus images. Localizing the optic disc is a significant task in an automated retinal image analysis process as is used on most vessel segmentation, disease diagnostic, and retinal recognition algorithms. The DIARETDB1 dataset includes 89 retinal images are used to evaluate the 3 thresholding methods. To analyze the effect of image conditions on the performance of the thresholding methods, three set of images are created based on their contrast and quality: high contrast, low contrast, and poor quality; with 58, 16, and 15 images respectively. As green channel in the fundus image provides best contrast, it is used to extract the Optic disc. We analyze the effect of applying a previous preprocessing technique, each thresholding method is applied to 2 versions of the
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
image: the original green channel and the original green channel with CLAHE. In terms of OD location, CLAHE preprocessing shows a great improvement for all thresholding methods. The average Method performance is evaluated with the percentage of intersected pixels with the groundtruth. From all results Triangle thresholding method performs consistently better than Maximum Entropy and Mean Peak, achieving 70.78% mean overlap with groundtruth in the best case and locating OD in 89/89 images. Session BIO 2 Wednesday September 28, 2016 12:30-14:30 Session Chair: Blanca Tovar Corona Improving Approximation of Jitter Probability in the Breakpoints of Simulated Copy Number Alterations Jorge Munoz, Yuriy S. Shmaliy, Reynel Olivera and Osbaldo Vite. Abstract: We analyze and approximate the jitter distribution function in the breakpoints of the measured genome copy number alterations (CNAs). The CNAs measured using the high resolution technologies of hybridisation are contaminated with an intensive noise that may cause uncertainty in the detected breakpoints and segments. We show that jitter is fundamentally inherent to the simulate CNAs and that the jitter probability represented with the discrete skew Laplace distribution is not accurate when the signal-to-noise ratio (SNR) is small. To approximate the jitter distribution with highest accuracy, we modify the skew Laplace distribution to have the SNR function dependent on the discrete departure from the breakpoint. We propose several approximating functions and test them by experimental data. Effects of negative affective sounds on P300 Jennifer Ladd Parada, Carlos Alvarado Serrano, Juan Manuel Gutierrez Salgado and Christopher James. Abstract: P300 are event related potentials that are widely used; however, the performance of systems based on it decrease drastically when they are transported outside a laboratory environment where the stimuli can be isolated. Since isolation of the stimulus is not always practical it is desirable to study P300 when the subjects are receiving stimuli in other senses besides sight. Thus this paper tested the subjects in a silent environment and adding affective noise as catalogued by the Affective Digitised Sound database. The resulting EEG recordings were analysed and found that isolated P300 features increased (p<0.05), but features that related it to the neighbourhood decreased (p<0.05) making it more difficult to identify in half of the subjects. A preliminary test points towards models derived of events elicited in noisy environments as a solution to the decrease of performance of classifiers.
An Algorithm for QT Dispersion Analysis: Validation and Application in Chronic Kidney Disease María De Lourdes Corzo Cuesta and Carlos Alvarado Serrano. Abstract: This work presents an algorithm for automatic analysis of QT dispersion (QTd) on 3 quasi-orthogonal leads (DI, aVF and V2) of ECG, based on the wavelet transform (WT). In a first step, QRS complexes and T waves of different morphologies are detected in each one of the three leads. Next, each QT interval is delineated by detecting and identifying the characteristic points as QRS onset (Qi) and T wave end (Te). Finally, mean of three consecutive QT intervals of the same beats in each lead is calculated to measure QTd. The accuracy of the algorithm developed has been validated with recordings of the manually annotated QT database, by comparing its results with manual annotations of an expert cardiologist, showing that the error obtained is within the tolerance range defined by each characteristic point, Qi and Te. The algorithm has been applied in a study to evaluate QTd in recordings of 7 normal subjects and 7 renal insufficiency patients from the PTB diagnostic ECG database. The results show that the QTd algorithm is effective in differentiating both groups. (p=0.004). Fetal ECG extraction based on Adaptive Filters and Wavelet Transform: Validation and Application in Fetal Heart Rate Variability Analysis Sara Lilia Lima-Herrera, Carlos Alvarado-Serrano and Pablo Rogelio Hernández-Rodríguez Abstract: The analysis of cardiac electrical activity in the fetus (fECG) has become a crucial tool for monitoring the physiological condition of the fetus during pregnancy. In this paper we present a new method for extraction of fetal ECG based on wavelet decomposition and an adaptive filter noise canceller with the least mean square algorithm (LMS). Firstly, the interfering signals are removed, with a FIR filter and Wavelet analysis. The detail coefficients corresponding to the reference signal (thoracic signal) and the input signal (abdominal signal) with greater similarity in shape are processed with the algorithm LMS, and is applied Stationary Wavelet Transform (SWT) as a filter and finally the coefficients were reconstructed by inverse SWT to obtain fECG. The algorithm has been tested on 10 non-invasive records from Database for the Identification of Systems (DaISy) and MIT/PhysioNet database; the signals were recorded from different women with gestational age between 35 and 40 weeks of gestation. The evaluation of the proposed method, showing a 96% accuracy by identifying the R wave of fECG are considered promising for future work. The algorithm has been applied in the analysis of fetal heart rate (fHR) and fetal heart rate variability (fHRV) that are indicators of fetal suffering and hypoxia.
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Myoelectric signal analysis using Hilbert-Huang Transform to identify muscle activation features Alvaro Altamirano, Arturo Vera Hernandez, Lorenzo Leija Salas and Didier Wolf. Abstract: Surface EMG signals have many important characteristics that could be useful to anticipate user’s movements for orthotic and prosthetic devices. New methods for signal processing have appeared, but not all of them apply to non-linear and non-stationary processes such like myolectric signals. To perform a real-time analysis over these signals is important to simplify the processing and reduce time computing. Using the Empirical Mode Decomposition (EMD) method were obtained the Intrinsic Mode Functions (IMFs) for a multichannel signal to filter, discard and identify characteristics. sEMG signals were acquired using NI-DAQ system with four differential inputs for four forearm muscles. Seven hand movements were considered, that signals were recorded into a 4 x 20480 matrices in 1000 records. These records were divided in three segments: doss, transitory and contraction; through EMD method we obtained their IMFs to analyze with Hilbert transform. Results will be considered to simplify the sEMG signal for real-time analysis to control a prosthetic device. A Comparison Between French and Mexican Technovigilance Process Claire Closset, Arturo Vera, Lorenzo Leija and Josefina Gutiérrez. Abstract: In the Medical world, one of the new goals is to pay attention to the patient safety. The surveillance of medical devices is called Technovigilance. Several laws exist in the world to apply those rules in hospitals, institutions or industry. The objective is to prevent the recurrence of adverse incidents and risks of serious incidents involving medical devices and taking preventive and corrective actions. To control this process, some health and sanitary agencies are located in France and Mexico. To understand how these two agencies work, we will compare their organization and to which standards they refer. Also, asking the staff working at the hospital and students involved in biomedical engineering seemed important to us. The majority of persons who answered to the questionary didn’t have information about Technovigilance and his relation with medical devices. Concerning the comparison, we found similar laws and standards but in Mexico these laws are not operative. Session BIO 3 Wednesday September 28, 2016 16:30-17:30 Session Chair: Carlos Alvarado Serrano Electric Field Distribution Obtained by Using the Finite Element Method and 3D Reconstruction of a Breast
Carcinoma: Approach to the Electroporation of Deep-seated Tumors by Using Two Needle Electrodes Adriana Leticia Vera Tizatl, Arturo Vera Hernández, Lorenzo Leija Salas, Sergio Rodríguez Cuevas, Mario Ibrahin Gutiérrez Velasco, Carlos Alberto Ramírez Martínez, Claudia Elizabeth Vera Tizatl and Pablo Rogelio Hernández Rodríguez. Abstract: Electrochemotherapy (ECT) is an application of reversible electroporation currently used in the European clinical practice to enhance absorption of chemotherapeutic drugs successfully used in the treatment of cutaneous and subcutaneous tumors. High response ratings obtained in these tumors encourages further investigation about the application of ECT in deep-seated tumors. As an approach to real anatomical modeling of target lesions, required in patient-specific treatment planning, it is presented in this work, the electric field distribution in a volume corresponding to a 3D reconstruction of a deep-seated breast carcinoma by applying electric potentials amplitudes from 100 V to 1500 V through two needle electrodes. Results obtained with the Finite Element Method (FEM) analysis show that for the breast carcinoma modeled, the electric potential suggested to be applied between the electrodes must be lower than 500 V to cause reversible electroporation and hence to control ablation regions while preserving the minimal invasiveness. Modeling of Electric Field and Joule Heating in Breast Tumor during Electroporation. Carlos Alberto Ramírez Martínez, Adriana Leticia Vera Tizatl, Mario Ibrahín Gutiérrez Velasco, Arturo Vera Hernández, Lorenzo Leija Salas, Pablo Rogelio Hernández Rodríguez, Sergio Rodríguez Cuevas and Claudia Elizabeth Vera Tizatl. Abstract: Electroporation consists in an electropermeabilization of the cell membrane as a consequence of its exposure to an external electric field. Electrochemotherapy is an application of electroporation and represents a minimally invasive technique which is pretended to be applied in breast cancer treatment. The distribution of the electric field in tumoral tissue was obtained by simulation using finite element technique. This work presents a simulation of a breast carcinoma embedded in the healthy tissue under an electric field exposure through steel electrodes. The modeling of the current density and the temperature rise the electroporation within the breast tissue and cancerous tissue seeks to observe the action of the electrical potential by putting steel electrodes inside the deep tissue. The effect of the electric field applied to deep tissue will depend on the geometry of the electrodes, applied voltage and the kind of signal (time, voltage pulse train period, frequency). Influence of the Surrounding Tissues in the Radiation Pattern of Microcoaxial Antenna for the Treatment of Breast Tumors Adriana Manzanárez Salmerón, Jaime Ernesto Lara Aguayo, Mario Ibrahin Gutiérrez Velasco, Arturo Vera Hernández and Lorenzo Leija Salas.
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Abstract: This paper presents a model of microwave radiation into the surrounding tissues in the therapy of ablation of breast using the method of finite element (FEM). Three designs of antennas with different diameters have been proposed to carry out simulations with the surrounding tissues: adipose tissue, connective and glandular tissue and tumor tissue. The tissues of the breast should be considered in the study of the effectiveness of the antennas to observe the change of patterns of the SAR. The FEM provides information for designing of microcoaxial antennas and its effects. The antennas of 0.95 and 1.3 mm of diameter have a SWR lower than the antenna with a diameter of 2.30 mm, so the smaller diameter antennas have a better response to a depth of 50 mm with a SWR of 1.5. Session BIO 4/BIOM 1 Friday September 30, 2016 9:00-11:00 Session Chair: Juan Manuel Gutiérrez Salgado Simulation of the temperature distribution on a diabetic foot model: a first approximation Rafael Bayareh Mancilla, Mario Ibrahin Gutierrez Velasco, Arturo Vera Hernández and Lorenzo Leija Salas. Abstract: This paper presents a first approach to the simulation of a foot model with internal temperature variation using the finite element method, in order to identify the heat distribution in a diabetic foot complication. The early identification of this complication is essential in the prevention of ulcers, infections and amputation of the lower limb. These simulations have been improved in order to understand the heat distribution in a foot with diabetic complications as an ulcer. This article shows the methodology to simulate a model of a foot with ulcers placed in areas where the literature reports that they are more likely to appear and the thermal distribution on the skin. Modeling a Conical Applicator for High Intensity Focused Ultrasound with the Finite Element Method Daniel Alberto Hernández Chávez, Victor Hugo Contreras Machado, Mario Ibrahin Gutiérrez Velasco, Lorenzo Leija Salas and Arturo Vera Hernández. Abstract: The high-intensity focused ultrasound (HIFU) has shown positive results in the treatment of prostate cancer and its possible application in neurodegenerative diseases. This paper describes the design of a HIFU applicator with a conical geometry, for modeling the software COMSOL® (COMSOL Inc., Burlington, MA) was used, which bases its operation on the finite element method (FEM). The equations that govern the phenomenon were used to optimize the dimensions of the applicator and their use in the application surface. The design condition to be met is that the applicator should not alter the focus and acoustic field generated by the transducer source of
ultrasound. The designed model allows that the system does not depend on a water container for the application of HIFU, reducing the dimensions and facilitating interaction with the system. It was obtained a design where the conical applicator has a radius at the apex of 5.2 mm, a radius at the base of 11.5 mm, a thickness of 2 mm walls, an operating frequency of 2 MHz and a focus of 20 mm operation. Water was considered as a means of propagation between the application surface and the applicator. Pulse Generator for Ultrasonic PZT and PVDF Transducer Arrays Based on a Programmable System-on-Chip (PSoC) Carlos Diaz, Mónica Vázquez Hernández, Martín Fuentes, Joel Duran and Pedro Acevedo. Abstract: This paper describes the design of a pulse generator to excite PZT and PVDF ultrasonic transducer arrays, based on the Programmable System-on-Chip (PSoC) module. In this module, using programmable logic different pulses were implemented, these pulses are required in ultrasonic applications, for multiple channels to excite PZT and PVDF transducer arrays. This module can operate with programmable frequencies from 3-74 MHz; its programming may be versatile covering a wide range of ultrasonic applications. It is ideal for low-power ultrasonic applications. Biomimetic prototype to the physio-anatomy of the cactus Pachycereus Pecten-Aboriginum, for application to catchment system atmospheric dew water. Andrea Almaraz Hernández. Abstract: This paper proposes a tool for optimization of sustainable development programs, such as the creation of organic gardens and green roofs. The biomimetic prototype is inspired by the plant phisioanatomy and morphology of the cactus Pachycereus Pecten-Aboriginum and its system of dew condensation. Proposed a design and construction thereof is performed using glass as main material. The prototype has an area of 0.586 m ^ 2. Water uptake tests were performed for six nights during the months of March and May in Cuauhtémoc, street Regina # 24 in Mexico City. Only there was condensation of water in a two-day period in the month of May. Furthermore a mathematical model indicating the amount of water collected as a function of the temperature of the prototype and the dew point temperature. External knee prosthesis with four bar linkage mechanism F. Daniel Ruiz Díaz, G. Alejandro Valentino Orozco and A. Altamirano-Altamirano. Abstract: This work focuses on the design and construction of an external prototype knee prosthesis with four-bar mechanism for lower limb amputations at the transfemoral level. Currently in Mexico there is a large number of people with a motor disability as a result of various diseases especially
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
diabetes mellitus and traumatic accidents causing transfemoral amputations of lower level members, necessitating the use of a prosthesis to restore the lost function and improve their quality of life. Due to the lack of technology developed in Mexico and the high cost of dentures that are brought from other countries, we have the need to investigate and new technologies that reduce the costs to be accessible using a prosthesis based on the above above, in this work our group has developed a prototype prosthetic knee that mimics the movement of the knee and which in turn will have a low cost
Computer Science and Computer Engineering (CS) Session CS 1 Thursday September 29, 2016 9:00-11:20 Session Chair: Francisco Rodríguez Henríquez Dynamic Feedforward Network Architecture Design Based on Information Entropy Li Xiaoou, Zhang Zhaozhao and Yu Wen. Abstract: To solve the problem of the neural network architecture design, a dynamic feedforward neural network architecture design method based on information entropy is proposed. In this method, the neural network’s cost function is composed of the cross entropy of the neural network’s expected output and actual output and Renyi’s entropy of the hidden node’s output. This does not require the learning samples to obey the Gauss distribution. In the learning processing, the bumber of the hidden neurons is dynamically adjusted by splitting the most active hidden neurons and removing the least active hidden neurons. This approach can improve the neural network’s dynamic response ability and can solve the problem of self-organizing architecture design of the feedforward neural network. The proposed method is applied to online modeling of ammonia nitrogen in tahe wastewater treatment process based on actual operating data. The experiment illustrates the dynamic response capability and the online learning capacity of the neural network. Layout Planning for Academic Exhibits using Augmented Reality Andrés Cortés-Dávalos and Sonia Mendoza. Abstract: We present a mobile application that helps a group of collocated collaborators to design, pre-visualize and modify the furniture layout plan for academic exhibits, using Augmented Reality (AR). The users can define the dimensions of a virtual exhibition room and populate it with different types of suitable furniture for an exhibit. They can
concurrently move around the virtual furniture and evaluate several layouts, in order to choose one that fits their needs and the available space. The application was created using our AR-based collaborative authoring framework, currently under development. An Effective Mutation Operator to Deal with Multi-objective Constrained Problems: SPM Sergio Alvarado, Adriana Lara, Víctor Sosa and Oliver Schuetze. Abstract: We present in this paper a novel mutation operator for Evolutionary Multi-objective Algorithms (MOEAs), named as Subspace Polynomial Mutation (SPM). This specialised mutation is particularly designed to deal with constrained continuos problems. As a variation operator, SPM ensures the production of suitable candidate solutions which has not only the chance to improve their survival rate, but that fulfils feasibility also---saving in this way a considerable amount of function evaluations when avoiding unnecessary trials. This feature coupled with the ability of SPM for performing movements along the constrained Pareto set improves the efficiency of the mutation process in a MOEA. A Local Exploration Tool for Linear Many Objective Optimization Problems Oliver Cuate, Adriana Lara and Oliver Schuetze. Abstract: For the decision making process in real-world applications, multi-objective optimization plays an important role; also, increasing the number of objectives to optimize is so common that this case is specially named as {\it many objective optimization}. A main issue with such many objective optimization problems is that, due to space dimension, their solution sets (so-called Pareto sets) can not be computed or entirely approximated. In this paper we present a tool, Pareto Explorer, specifically adapted for a preference-based local exploration of solutions, to deal with linear many objective optimization problems.The Pareto Explorer is able to steer the search from a given solution considering user defined directions, or preferences along the (highly-dimensional) solution set---turning the decision making process more intuitive. We demonstrate the effectiveness of the the proposed method on some benchmark examples. Modeling Micro-Channel Plates as Astronomical Detectors of UV Radiation Angel Pozos, Edgar Castillo, Miguel Chavez and Leonardo Trujillo. Abstract: The World Space Observatory (WSO) is a space-based ultraviolet (UV) telescope under development by Russia and Spain. Mexico is formalizing its participation in the development of components for some of the instruments on board, such as the detectors that are discussed in this work. In particular, this paper describes a first approach to a
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
computational model of micro-channel plates (MCP), which are used for astronomical purposes. The model is used to describe the behavior of the secondary emission yield (SE yield) and its relationship with the gain obtained by the MCP. Furthermore we want to model the generation of the detected particle clouds generated at the output of the MCP, after which a segmentation algorithm is applied to obtain the optimal contour around these clouds and the corresponding centroids. Authenticated Encryption Based on Finite Automata Cryptosystems Pedro Ivan Salas and Raúl Ernesto González. Abstract: We present a new Authenticated Encryption (AE) scheme based on finite automata using the method Encrypt- then-MAC. The scheme is constructed from two cryptographic primitives, a symmetric encryption scheme based on finite au- tomata known as FASKC and a Message Authentication Code (MAC) constructed from a finite automaton. The paper shows how the scheme works and how to construct a MAC from a finite automaton using a boolean function with good cryptographic properties. Due to the construction method and the assumption that the symmetric encryption scheme is secure under Chosen Plaintext Attack (CPA), it is shown that the MAC is unforgeable under Chosen Message Attack (UF-CMA) making the scheme secure under Chosen Ciphertext Attack (CCA). Distribution Management System and Control Architecture through a FPGA device for Electrical Distribution Feeders Frank Alberto Ibarra Hernández and Carlos Alberto Canesin. Abstract: This paper proposes the utilization of VHDL (Very High Speed Integrated Circuit plus Hardware Description Language) for developing a novel Distribution Management System (DMS) and control architecture for electrical distribution systems. Developed DMS and control architecture utilizes a FPGA (Field Programmable Gate Array) device allowing electrical feeder control. This DMS and control architecture in its case study gives priority to control a voltage regulator, based on the switching TAP change (for each phase). The test case system used in this research consists of a 959 nodes distribution feeder, considering a typical real Brazilian electrical-distribution radial system. Some results for the distribution feeder test case are presented, in order to demonstrate the feasibility of the developed higher-level control using a FPGA device in a VHDL platform.
Communications Systems (COMM) Session COMM 1 Friday September 30, 2016
9:00-11:00Session Chair: Giselle M. Galván Tejada Superimposed Training-based Detector for Spectrum Sensing in Cognitive Radio Lizeth Lopez-Lopez, Marco Cardenas-Juarez, Enrique Stevens-Navarro, Ulises Pineda-Rico and Aldo G. Orozco-Lugo. Abstract: The spectrum sensing function allows a cognitive radio to determine the absence/presence of primary users’ (PUs) signals in a frequency band of interest. These signals might exhibit very low-power at cognitive (or secondary) users’ receivers. Thus requiring detection algorithms that work well in the very low signal-to-noise ratio (SNR) region. It is known that secondary users (SUs) can improve its detection performance if some known information about PUs’ signals is available. In this regard, some PUs can use superimposed training (ST) technique for channel estimation and synchronization purposes in their own networks. However, to the authors knowledge, the exploitation of this ST information by SUs in the context of cognitive radio has not been studied yet. In this paper, a new spectrum sensing algorithm for superimposed trained PUs’ signals is designed based on the Neyman-Pearson criterion. The proposed algorithm takes advantage of the ST sequence to improve the detection performance of SUs. Results show that, even with a small training-to-information power ratio, the superimposed training-based detector (STD) significantly outperforms the energy detector; specifically in the very low SNR, which is of interest in cognitive radio. Moreover, if ST is not used, the proposed STD reduces to the energy detector. Improving Robustness of Distributed Filtering for Sensor Networks Using FIR Filtering Miguel Vazquez-Olguin, Yuriy Shmaliy and Oscar Ibarra-Manzano. Abstract: Robustness is required from an estimator to provide better performance if a wireless sensor network (WSN) operates under harsh conditions with incomplete information about noise. This paper shows that robustness of the WSN can be improved by using the distributed unbiased finite impulse response (UFIR) filter rather than the traditional distributed Kalman filter (KF), both based on the average consensus. Unlike the KF, the UFIR filter completely ignores the noise statistics and initial values which are typically not well known. As an example, we consider a vehicle travelling along a circular trajectory under unpredictable impacts and errors in the noise statistics. A case of impulsive noise generated by manufacturing process is also considered. Design of Blind Distributed UFIR Filter based on Average Consensus for WSNs Miguel Vazquez-Olguin, Yuriy Shmaliy and Oscar Ibarra-Manzano.
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Abstract: Wireless sensor networks (WSNs) often operate under harsh conditions requiring robustness from the estimator. This paper develops a distributed unbiased finite impulse response (UFIR) filter based on average consensus as a more robust alternative to the Kalman filter (KF). Unlike the distributed KF, the distributed UFIR filter typically requires only one consensus filter and it completely ignores the noise statistics and initial values. As an example, we consider a vehicle travelling along a circular trajectory under unpredictable impacts and errors in the noise statistics. Better performance of the UFIR filter is demonstrated under diverse operation conditions. 5GTRADIS: A Novel Traffic Distribution Mechanism for 5G Heterogeneous Networks Sergio-Jesús González-Ambriz, Rolando Menchaca-Mendez and Mario-Eduardo Rivero-Angeles. Abstract: 5G Heterogeneous Networks (HetNets) represent a promising solution to meet the continuous traffic demand originated mainly by the new mobile applications with real and non-real time requirements, new devices, cloud services, IoT and the novel IoE applications. The incorporation of traffic offloading techniques to deal with these demands is an essential part to be implemented in the future networks. Current techniques are focused on implementing policies about how to address the traffic between end users and a network entity (e.g., Macrocell or Small Cell). However, a number of issues can arise if the network topology is not considered in order to transport the traffic from sources to destinations. In this work we present a new traffic distribution technique that takes advantage of the expected 5G Heterogeneous Networks capabilities to bring significant gains in traffic distribution, resilience and overall network capacity improvements in such networks. Our technique is oriented to establishing topologies that improve the overall connectivity by incorporating communication links between any network component (e.g., small cell to small cell, macrocell to macrocell) as a way to offload traffic from congested zones. Our experimental results shows that the proposed scheme outperform traditional HetNets. On the Importance of the Vertical Radiation Pattern on Simulations of WSNs Giselle Monserrat Galván Tejada, Ruben Flores Leal, Francisco Sanchez-Gomez and Victor Barrera-Figueroa. Abstract: Applications of wireless sensor networks have nowadays expanded their technical requirements. One of them is the form how nodes are distributed, from random positions to a predetermined location of nodes. In this concern, those applications that require a specific planning of position of nodes usually consider simple characteristics of the antenna radiation pattern (an isotropic pattern, for instance). Depending on the particular application, nodes can be located not only at different distances from each other, but also at
different heights, which could introduce less gain due to the vertical pattern of the antenna. Thus, this paper addresses the importance of considering the vertical radiation pattern of antennas on simulations of wireless sensor networks, when nodes have a fixed position. By taking a commercial antenna and its measured radiation pattern, an evaluation of the achieved gain and its impact on a link budget is presented.
Nanotechnology (Materials and Applications) (NANO) Session NANO 1Thursday September 29, 2016 9:00-11:00Session Chair: Arturo Escobosa Echavarría Synthesis, Characterization and Photocatalytic activity of TiO2 Powders Jacob Morales, Maria De La Luz Olvera Amador and Arturo Maldonado Alvarez. Abstract: Titanium (IV) isopropoxide (TTIP) was used for preparing TiO2 nanoparticles by the precipitation technique. The precipitation was carried out following two experimental routes. In the first route titanium (IV) isopropoxide was mixing in ethanol, the solution obtained was heated at 60°C, then; glacial acetic acid and sulfuric acid were slowly added under constant magnetic stirring. In the second route titanium (IV) isopropoxide was mixed in ethanol, the solution obtained was heated at 60°C; then deionized water was added and finally hydrochloric acid was also slowly added. In both experiments a white precipitate was obtained, and then it was centrifuged, dried and calcined at different temperatures. To evaluate the photocatalytic activity, pellets were made from TiO2 powders. The TiO2 pellets were evaluated by the degradation of a methylene blue (MB) solution. The evolution of the MB concentration was monitored by a UV–vis spectrophotometer. The morphology and crystal structure of the powders were examined by Scanning Electron Microscopy (SEM) and X-ray diffraction (XRD), respectively. Facile One Pot Synthesis of Single Phase Kesterite Cu2ZnSnS4 Nanocrystals Aruna Devi Rasu Chettiar, Latha Marasamy, Rohini Mohan, P.Reyes Figueroa, Velumani Subramaniam, Adolfo Tavira Fuentes, Miguel Galván Arellano, F. Javier Ramírez Aponte and Jaime Santoyo Salazar. Abstract: Cu2ZnSnS4 (CZTS) nanocrystals were synthesized by employing facile one pot thermal decomposition method. In this study, the influence of reaction time (30 min, 1,2,4 and 8 h) on the structural, morphological and compositional properties of CZTS nanocrystal was investigated. Structural analysis showed presence of Cu2−xS phase in the CZTS
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
nanocrystals synthesized for lesser than 2 h. As the reaction time proceeds, Zn2+ and Sn4+ cations diffuse into Cu2−xS lattice and lead to the formation of single phase CZTS. Morphological analysis showed CZTS nanocrystals with irregular shape as well as inhomogeneous size distribution with respect to various reaction time. The composition of CZTS nanocrystals was found to be approaching the targeted value (Cu: Zn: Sn: S = 2:1:1:4) as the reaction time increases. Effect of milling speed on the precursor Zinc acetylacetonate destined to obtain ZnO thin films Viridiana Mata Frayre, Maria De La Luz Olvera Amador and Arturo Maldonado Alvarez. Abstract: Effect of milling speed on the precursor Zinc acetylacetonate destined to obtain ZnO thin films In this work, zinc oxide (ZnO) thin films were deposited on glass substrates by the ultrasonic spray pyrolysis technique, the starting precursor (zinc acetylacetonate) had a previous mill treatment. The effect of ball milling speed have been studied. The zinc acetylacetonate powder was milled at 60 minutes and milling speed ranges from 300 to 600 rpm in a Pulverisette 7 premium line planetary ball milling, the ball to power ratio was 7:1 in a tungsten carbide vessel. The starting solution was then prepared by dissolving the milled zinc acetylacetonate in a mix of methanol, water and acetic acid at a 0.2 M concentration The thin films were deposited at 400 and 450 C and a time deposition of 6 minutes. The milling effect on the photocatalytic degradation of methylene blue (MB) dye under UV light irradiation was studied.The structural changes of milling speed of the powder and the ZnO thin films were followed by x-ray diffraction and scanning electron microscopy. Synthesis and characterization of magnetite-graphene oxide nanocomposite Manuel Alejandro Perez Guzman, Rebeca Ortega Amaya, Yasuhiro Matsumoto, Jaime Santoyo Salazar and Mauricio Ortega Lopez. Abstract: This work presents the advances in the synthesis and characterization of magnetite-graphene oxide nanocomposite synthetized by coprecipitation. Structural and physicochemical properties were analyzed by X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FT-IR), transmission electron microscopy (TEM) and vibrating sample magnetometer (VSM). XRD and FT-IR analyses corroborated that magnetite was obtained. Nanoparticle mean size from XRD analysis revealed that it decreased when graphene oxide (GO) was present. TEM displayed that magnetite decorates the GO and VSM revealed superparamagnetic behavior. Particle Size Effect On Gas Sensing Properties Of ZnO Pellets Maria Del Rosario Herrera Rivera, Maria De La Luz Olvera Amador and Arturo Maldonado Alvarez.
Abstract: In this work, zinc oxide (ZnO) nanopowders were prepared by a homogeneous precipitation method. Eight samples were prepared under different conditions using Taguchi method. Structural and morphological properties were analyzed by X-ray diffraction (XRD) and scanning electron microscopy (SEM), respectively. Pellets were manufactured at different pressing conditions and pellets were measured in propane gas (C3H8) at different concentration and measuring temperatures. Best sensitivity was obtained with the pellet ZnO-1 of a particle size of 38.7 nm with an order of magnitude of 4. Influence of Reaction Time on Cu(In,Ga)Se2 Particle Synthesis by Thermal Decomposition Method Latha Marasamy, Aruna Devi Rasu Chettiar, P.Reyes Figueroa, Rohini Mohan, Velumani Subramaniam, Adolfo Tavira Fuentes, Miguel Galván Arellano and F. Javier Ramírez Aponte. Abstract: Cu(In,Ga)Se2 (CIGSe) particles were synthesised by thermal decomposition method using CuCl, InCl3, GaCl3 and elemental selenium in oleylamine under nitrogen atmosphere. In this work, influence of reaction time on CIGSe particle synthesis was investigated using XRD, Raman, FESEM and EDAX analysis. Structural analysis showed more Ga incorporation at reaction time of 4h. FESEM micrographs depicted that the morphology of particles were hexagonal as well as irregular plate like shapes with size ranging from 200 to 500 nm as the reaction time increases. EDAX analysis showed increment in the Ga content as the reaction time increases from 1 to 4h. Session NANO 2Friday September 30, 201612:50-14:10Session Chair:. María de la Luz Olvera Amador Chemical Bath Deposited Zn(S, OH, O) Films Near Room Temperature: Physicochemical Considerations Irving Josué González Chan and Andrés Iván Oliva Arias. Abstract: A physicochemical analysis on the chemical bath solution for Zn(S,OH,O) thin films deposition is discussed in this work. The effect of three temperatures closed to the ambient (25, 40 and 55 °C) and three HS-/Zn(OH)42- ion concentration ratios (1, 1.5 and 2) on the growth and physical properties of the deposited ZnS was investigated. The species distribution diagrams and solubility curves obtained at these conditions are the key for determining the best conditions. Thus, conditions for obtaining high quality ZnS films by chemical bath deposition technique are reported. ZnS films with high transmittance (80-90%) and band gap energy of 3.68 eV were obtained at selected physicochemical conditions.
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Automatization and control of home-made micro injection pumps for a microfluidic system Aldo Yair Tenorio, Miguel Russell Matus Muñoz, Ma De La Luz Olvera, Victor Manuel Altuzar Aguilar and Claudia Oliva Mendoza Barrera. Abstract: Microfluidics is a research field which allow us control over liquids at micrometric scale. It has several applications such as chemistry, biomedicine and biology, among others. Microfluidics enable the development of systems capable of cell manipulation and very precise chemical reactions with substantial improvements over common or bulk synthesis, let us fabricate nanocarriers with specific characteristics. In fact, the customization of variables is what makes it so versatile. One of the main issues we deal with is the control and injection of small volume fluids inside the microfluidic cell, ranging in some microliters per hour with a controlled and constant velocity. Commercial systems of this kind are expensive but instead they can be replaced by a home-made system. Here we present the design and implementation of a low cost 4-channel microinjection system by using 3D printing, Arduino and LabView. The implemented pumps are capable to deliver a minimum of 70 μl/h and a maximum of 54 ml /h of fluid, are scalable, easy to reproduce and low cost, making available for a wide range of researchers, the time of development is small compared with the acquisition and importation time, from a couple of days against months, with a price in the range of hundreds instead thousands of dollars and with similar characteristics to those commercially available. Vertically aligned ZnO nanorod arrays grown by chemical bath deposition on bare- and ITO-coated glass substrates Miguel Angel Lopez, Mauricio Ortega and Yasuhiro Matsumoto. Abstract: Thin films comprising vertical aligned ZnO nanorod arrays are currently used for sensing and photovoltaic applications. Chemical Bath Deposition (CBD) is a low-cost technique for the semiconductor thin films deposition. This work reports the CBD growth of ZnO nanorods (NRs) on different substrates for potential application in thin film solar cells. It was found that, the successful deposition of thin films composed of vertical aligned ZnO nanorods on bare and ITO-coated glass substrates strongly depends on the seed layer characteristics. Nanoparticles of Zinc Oxide Obtained by Water in Oil Microemulsion System Ana María Pineda and María De La Luz Olvera. Abstract: This work reports results obtained from synthesis of zinc oxide powders via microemulsiones of type water in oil through of two routes. The formation of microemulsions as confined reaction media to the synthesis involves the combination of emu oil, zinc acetate, and sodium hydroxide as precipitating agent. To reach the thermodynamic stability and find the hydrophilic-lipophilic balance of the microemulsions,
Span-Tween 80 was used. Synthesized zinc oxide powders were characterized by X-ray diffraction and electron microscopy transmission. ZnO powders presented a hexagonal wurtzite structure and nanometric-sized crystallites around 14 nm. Electron microscopy transmission images showed that synthesized powders present a spherical morphology.
Solid-state materials, Electron Devices and Integrated Circuits (SSM) SSM 1 Wednesday September 28, 2016 9:00-10:00 Session Chair: Mario Alfredo Reyes Barranca 3-layered Capacitive Structure Design for MEMS Inertial Sensing Benito Granados-Rojas, Mario Alfredo Reyes-Barranca, Griselda Stephany Abarca-Jimenez, Luis Martin Flores-Nava and Jose Antonio Moreno-Cadenas. Abstract: In this paper a two-terminal capacitive structure is presented in which a novel architecture with a double interleaved (interdigitated) scheme is introduced. This structure was originally conceived as a mechanism to achieve a greater capacitance between the plates (terminals) of an integrated capacitor using a relatively smaller design area in the standard 0.5 , two polysilicon and three metal layers (2P3M) CMOS technology. This work presents the design and theoretical analysis of a three-metal interleaved structure used as a varactor tied down to the proof mass of an integrated CMOS-MEMS accelerometer where the active devices are floating-gate transistors (FGMOS) with a variable capacitive coupling coefficient. Nevertheless, the three-layered geometrical scheme may have a wide range of applications across the MEMS technology. A Set of Test Structures for the Development of a CMOS-MEMS Technology Carlos Ramon Baez Alvarez, Mónico Linares Aranda, Alfonso Torres Jacome, Wilfrido Calleja Arriaga and Javier de La Hidalga Wade. Abstract: In this work, a set of test structures that meets the emerging need for Micro-Electro-Mechanical Systems (MEMS) integration process monitoring and material/device property measurement at the wafer level is presented. The CMOS-MEMS test structures are designed to evaluate and assist the development of an integrated CMOS-MEMS process. The acquired data from the test structures will be useful for identifying the possible electrical and/or mechanical variations on the material properties and devices performance due to the fabrication process.
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Assessment of the Possibility to Couple a Photo Sensor to a Floating-Gate MOS Transistor. Sergio Domínguez, Alfredo Reyes, Luis M. Nava, Jose A. Moreno and Salvador Mendoza-Acevedo. Abstract: This paper presents preliminary results from experiments directed to demonstrate novel approximations that can lead to new applications for Floating-gate MOS transistors (FGMOS). This device began to be used long time ago in digital and analog configurations in a variety of reliable applications, either supported on the non-volatile or volatile property of this transistor. This is achieved injecting/extracting charge to/from the floating gate through electrical mechanisms like Fowler-Nordheim Tunneling (FNT) or Channel Hot Electrons (CHE). This work shows that the same as with the mentioned mecha-nisms, I-V characteristics can also be modulated with physical rather than electrical phenomena, like the photonic one, among others. A simple amplifier configuration was used, using discrete components like a little solar cells module and an integrated photo sensor. After measurement of the corresponding transfer curve of the amplifier, a curve shift was obtained thanks to the VOC generated in the discrete device after illumination of the components, giving support to the hypothesis considered in this work, which can lead to a research work where integrated FGMOS transistors can be coupled to an integrated photo sen-sor, using a standard CMOS technology. Session SSM 2 Wednesday September 28, 2016 12:30-14:30 Session Chair: Gabriel Romero Paredes Effect of substrate position on structural, morphological, and optical properties of reactively sputtered ZnO thin films Vinoth Kumar Jayaraman, Yasuhiro Matsumoto, Arturo Maldonado and Maria De La Luz Olvera. Abstract: In this work, we have investigated the structural, morphological, and optical properties of ZnO thin films by placing the substrate at different locations of the substrate holder. ZnO thin films were grown on glass substrates by reactive radio frequency (RF) sputtering at 100W. Structural results obtained from XRD revealed that ZnO thin films were grown along (002) plane. Morphological studies showed that films were formed from nanograins of ZnO. Optical measurements in the UV-vis region presented an average transmittance >90%. Study of optoelectronics properties of Indium Tin oxide films fabricated by Sputtering in Oxygen atmosphere. Saraí Vázquez Y Parraguirre, Antonio Olivares Vargas, Ismael Cosme Bolaños, Svetlana Mansurova, Adrian Itzmoyotl Toxqui and Andrey Kosarev.
Abstract: Indium thin oxide (ITO) thin films were deposited by magnetron sputtering with different oxygen flows rates (%O2 = 1 % to 0 %). The films were deposited by RF discharge in Argon/oxygen atmosphere with a power W = 150 W at substrate temperature T = 175° C and pressure P = 6 mTorrs. Photoelectric parameters of fabricated ITO films were characterized by four-point probe method and transmittance measurements. It was found that reducing oxygen concentration the sheet resistance increases, and this effect is even pronounced for sample with post- deposition thermal treatment at T = 300 °C. For samples fabricated in oxygen atmosphere the transmittance reached values above 90 %. Finally, the transparent conducting oxides were applied in hybrid organic-inorganic photovoltaic structures. The best power conversion efficiency in AM-1 sunlight η = 2.13 % was obtained for a structure with ITO fabricated at oxygen concentration %O2 = 0.25 % in comparison with an efficiency η = 1.87 % obtained for a structure fabricated with commercial ITO. Effect of Al2O3 on the morphological and gas sensing properties of SnO2 pellets Venkata Krishna Karthik Tangirala, Maria De La Luz Olvera Amador, Arturo Maldonado and Heberto Gomez Pozos. Abstract: Alumina mixed tin oxide (SnO2: Al2O3) powders were obtained by employing chemical and physical synthesis methods. The powders were prepared from tin chloride as Sn source, urea (R1) and ammonia (R2) as precipitant agents. The resultant SnO2 powders are milled in a planetary ball mill. Finally, Al2O3 was added to the milled SnO2 powders manually in different ratios, and then pressed to manufacture thin pellets. After several experimental trials, stable SnO2: Al2O3 pellets were formed. Later, silver contacts were manufactured on the pellets surface by the thermal evaporation technique. The effect of Al2O3 ratio and precipitation agent on the morphological properties are presented in this work. The morphological study was developed by using Scanning Electron Microscopy (SEM). Additionally, the sensing properties of these pellets as a function of the SnO2: Al2O3 ratio were measured in carbon monoxide (CO) atmosphere and a hypothesis model for an arrangement of SnO2 and Al2O3 particles Simulation of a Double-stage Micro-Inverter for Grid-Connected Photovoltaic Modules José Díaz-Bernabé and Arturo Morales-Acevedo. Abstract: In this work, the performance of a double-stage micro-inverter using the adaptive incremental conductance (AIC) algorithm for grid-connected photovoltaic (PV) modules is evaluated by means of a Simulink model. We observe the response of the micro inverter under transients of solar irradiance and under static conditions. We show that MPPT and conversion efficiencies above 96% can be expected.
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Performance Parameters Degradation of Inverted Organic Solar Cells Exposed Under Solar and Artificial Irradiance, Using PTB7:PC70BM as Active Layer Magaly Ramírez-Como, Victor Balderrama and Magali Estrada. Abstract: In this work, the degradation of inverted bulk heterojunction organic solar cells (BHJ-OSC) exposed under solar and under artificial irradiance conditions is studied. The photovoltaic devices were based on the polymer PTB7 and the fullerene PC70BM and partially fabricated under air environment. The current density-voltage (J-V) characteristics of the devices were obtained at room temperature, under both dark and illumination conditions for a period of up to 1344 h. The samples were stored, between measurements, in a glove box under nitrogen environment. High Contrast Distributed Bragg Reflectors Based on Si:H/SiC:H PECVD Multilayer Structure Hiram Martinez, Andrey Kosarev, A.B. Pevtsov, A.V. Zherzdev, N.A. Feoktistov and Yuriy Kudriavtsev. Abstract: In this work we study the high contrast distributed Bragg reflectors (DBRs) based on plasma deposited Si:H/SiC:H films. Optical constants of these materials were measured by means of spectral ellipsometry and used in theoretical calculations of spectral transmittance and reflectance. The stacks consisted of 13 layers of the films were designed to provide stop band center at λ= 835 (DBR1) and 565 nm (DBR2). High reflectance (>90%) for DBR1 and lower value of 70% for DBR2 was measured with bandwidth Δλ=260 nm. The properties of DBR1 are of promise as back reflector in PECVD PV solar cells because of his stop band characteristics and complete compatibility with solar cell fabrication. While DBR2 structure shows worse filter properties suggesting significant effect of light absorption in Si:H layers. Session SSM 3 Wednesday September 28, 2016 16:30-17:50 Session Chair: Felipe Gómez Castañeda FPGA Implementation of Orthogonal Matching Pursuit Algorithm Carlos Morales-Perez, Jose Rangel-Magdaleno, Hayde Peregrina-Barreto, Israel Cruz-Vega and Juan Ramirez-Cortes. Abstract: In this paper, the Orthogonal Matching Pursuit (OMP) algorithm is implemented on a Field Programmable Gate Array (FPGA) to obtain the number and position of the atoms in a dictionary. The dictionary, obtained by K-Singular Value Decomposition (K-SDV) algorithm and developed in Matlab, reconstructs a signal from its Sparse representation. With the atoms selected by the OMP algorithm, a signal
classification is obtained by means of the FPGA. Some experimental tests are presented to verify the proper operation Fully Digital Write-in Scheme for Multi-Bit Memristive Storage Nima Taherinejad, Sai Manoj P. D., Michael Rathmair and Axel Jantsch. Abstract: Memristors have been used in various applications, including single- and multi-bit storage units. The non-linear voltage-current relation in memristors is often seen as a problem, necessitating complex circuits and methods for a reliable write-in. In this paper, we take advantage of this phenomenon for storing more than one bit of information in a single memristor using digital bit streams. First, we demonstrate how two bits of information can be stored and read back from a single memristor unit. Then, we propose encoding schemes that can enhance the reliability of digitally writing two and three bits of data in a single memristor. To verify the reliability of this method for multi-bit data storage, we have run simulations based on the most prominent simulation models available. Modelling of Single-ended Interconnects Using Surrogate Model and DoE Tech Aurea Edna Moreno Mojica and Zabdiel Brito-Brito. Abstract: A methodology is defined to select the variables with the greatest impact on the response of the system to be used in the design of single-ended low speed interconnects. A point-to-point topology was studied in this work, consisting of a master and a slave buffer, package, and two transmission lines with a series resistor on the PCB. The considered response for the system was the flight time of digital signals coming out of the buffers. To lessen computational resources during optimization processes, surrogate models were obtained using design of experiments. To choose the active factors for the response, screening experiments were done. Then, to build the surrogate model face-centered and rotatable central composite designs for both the master and slave signals were compared in terms of model fit, with a 15% maximum error. The surrogate models were used to represent a Serial Peripheral Interface, which is a synchronous bus, and requires a timing analysis to assess the maximum allowed length of the routing. A Nelder-Mead algorithm with penalty functions was used to optimize the transmission lines lengths, while maintaining the timing margins equal to or larger than zero. Optimal lengths were validated using SPICE. The methodology proposed in this work can help in reducing design times for single-ended low-speed singles, as there would not be need to simulate the whole topology each time the value of a component needs to be changed.
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Fuzzy Inference System for Region Segmentation Using the YCbCr Color Model José A. Moreno-Cadenas, Felipe Gómez-Castañeda, Alvaro Anzueto-Rios and Luis Enrique Hernández-Gómez. Abstract: Segmentation is one of the main tasks in image processing and pattern recognition systems. In this paper, a segmentation technique of color images based on fuzzy inference model is proposed. Triangular membership functions are used in the input of the fuzzy system, the Mamdani type fuzzy inference system is applied and for the output universe, singleton-type functions are used. To get the accurate output value, the weighted average method is applied. The YCbCr color space is used as feature space. The fuzzy membership functions characterize the different membership levels between hue and Chroma from the YCbCr color model. The fuzzy inference system classifies data and generates regions of pixels with an homogeneous color level in the output images. The proposed technique was also applied to the RGB color space and the results were compared; the best results were obtained in the YCbCr color space. In this color model, the changes of hue in presence of illumination variations are considered, so that it has a better performance in the segmentation task; in addition, the processing time was lower in this color space. Session SSM 4 Friday September 30, 2016 9:00-11:00 Session Chair: Yasuhiro Matsumoto Kuwahara Modeling the Variation of Threshold Voltage, Mobility Factor and Saturation Coefficient in Amorphous Indium-Gallium-Zinc Oxide Thin Film Transistors Yoanlys Hernandez Barrios, Fernando Avila Herrera, Magali Estrada Del Cueto, Antonio Cerdeira Altuzarra, Oana Moldovan and Benjamin Iñiguez. Abstract: AOSTFTs with SiO2 and IGZO as dielectric and semiconductor layers respectively, are characterized in the temperature range between 300 and 400 K. The behavior of the threshold voltage, mobility factor and saturation coefficient is analyzed as function of temperature. It is shown that modeling with UMEM of the devices at different temperature can be well represented in the linear region, if the value of the model parameters is determined at a given temperature, 300 K in this case, and taking into account the law of variation with temperature for each parameter, corresponding to the specific fabrication technology of the devices. In the saturation region of the output characteristic, an abnormal reduction of the drain current is observed. This effect has to be further studied and the representation of its behavior incorporated to the model
Effect of the Active Layer Thickness on the Electrical and Electroluminescent Properties in Silicon Rich Oxide Based Light Emitting Capacitors Santiago Antonio Cabañas-Tay, Alfredo Morales-Sánchez and Carlos Domínguez-Horna. Abstract: This work presents the electrical and electroluminescent properties of light emitting capacitors (LECs) using silicon rich oxide (SRO) films as active layer. Metal-insulator-semiconductor-like structures were fabricated with n+ polysilicon and aluminum as gate and substrate electrodes, respectively. SRO films were thermally annealed at high temperature to induce the silicon agglomeration. The effect of SRO thickness (tSRO = 24, 53 and 80 nm) on the electrical and electro-optical properties of LECs is analyzed. A high conduction state (HCS) is observed at low electric fields (E) for SRO films with 24 and 53 nm of thickness. The current drops from that HCS to a low conduction state (LCS) when a certain electric field is reached. The HCS at low E is not observed as the SRO thickness is increased. A broad visible electroluminescent spectrum is observed on LECs when the electric field is larger than 7.5 MV/cm2 through the Fowler-Nordheim mechanism. Moreover, an intense infrared (IR) electroluminescent peak is observed in LECs when the SRO film is decreased. This IR EL peak could be related with the silicon substrate emission. UV Electroluminescence from ITO/SRO/p-Si and ITO/SRN/SRO/p-Si Structures Santiago Antonio Cabañas-Tay, Alfredo Morales-Sánchez, Liliana Palacios-Huerta and Mariano Aceves-Mijares. Abstract: This work presents the electrical and electroluminescent properties of light emitting capacitors (LECs) using silicon rich oxide (SRO) and the effect of a thin silicon rich nitride (SRN) film on it (SRN/SRO) as active layers. LECs were fabricated using simple Metal–Insulator–Semiconductor (MIS) structures with indium tin oxide (ITO) and aluminum as gate and substrate electrodes, respectively. All devices exhibit a resistance switching (RS) behavior from a high conduction state (HCS) to a low conduction state (LCS), enhancing an intense ultraviolet-blue (UV-B) EL. This RS behavior produces structural changes in the active layer and probably in the ITO contact. Seven narrow bands with half-peak width of 7±0.6 nm at ~250, 270, 285, 305, 325, 415 and 450 nm are clearly observed once the low conduction state is reached. The red-near infrared EL at HCS is similar to the PL spectra indicating the same radiative process is involved. An increment of the EL band at ~590 nm in SRN/SRO is observed at both conduction states. This band has been observed before and attributed transitions from the minimum band conduction to K° centers in SRN films. The UV-B emission appears at lower electric field when the SRN/SRO film is used as active layer. Effect of Germane in gas phase on Electronic Properties of GeXSiY:H alloys deposited by RF Plasma Discharge
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Sarai Zárate, Ismael Cosme, Hiram Enrique Martínez, Svetlana Mansurova and Andrey Kosarev. Abstract: We have studied the influence of Ge-concentration in gas phase on electronic properties of GeXSiY:H alloys deposited by RFPECVD over the relative gas phase Ge concertation to gas phase Si concentration from 50 % to 100 %. The electronic properties of the films were studied by means of temperature dependence of dark conductivity σdark (T)in the range from T= 300 to 430 K. The temperature dependence curves were described by the thermal activated conduction model. Activation Energy and Fermi Level parameters were calculated. A change in dark conductivity was found from 1.695x10-6 Ω-1cm-1 at 50 % to 1.130x10-4 Ω-1cm-1 at 100 % of Ge gas phase concentration. The correlation between the Ge in gas phase and conductivity was reflected in the activation energy and Fermi level values that varied from Ea= 0.377 to 0.237 eV and EF= 0.274 to 0.101 eV. Determination of photoelectric parameters of hydrogenated amorphous silicon by the photoelectromotive-force technique Hiram Martinez, Darwin Mayorga Cruz, Svetlana Mansurova, Ismael Cosme and Andrey Kosarev Abstract: Measurements of non-steady-state P-EMF current as a function temporal and spatial modulation frequencies were performed on intrinsic hydrogenated amorphous silicon film at 633 nm wavelength. The experimental behavior of photo-EMF current is well described by a bipolar photoconductivity model. Material photoelectric parameters such as majority carriers’ lifetime, dielectric relaxation time, electron and holes diffusion lengths and their mobility-lifetime products were estimated from the experimental data. Session SSM 5 Friday September 30, 2016 12:50-14:10 Session Chair: Alejandro Medina Advances in BTI modeling for the design of reliable ICs Alejandro Campos-Cruz, Esteban Tlelo-Cuautle and Guillermo Espinosa-Flores-Verdad. Abstract: A brief review of the impact of Bias-Temperature Instability (BTI) on Integrated Circuits (IC) is presented. The importance of this problem with the performance degradation on commercial IC designs, such as Physical Unclonable Functions (PUF) and Ring Oscillator (RO), which are key
elements on security applications, is emphasized. A physical interpretation of this phenomenon is provided along with a brief description of the model's evolution, commonly used to simulate the degradation of transistor's parameters at high temperature and voltage supply conditions. Finally, some reported techniques are described to accomplish a better IC design, from the Process, Temperature and Voltage (PVT) variations point of view, lifetime yield optimization and weak spot detection on circuit's architecture. A LOFAR and Beamforming Implementation in a FPGA for a Digital Passive SONAR Luis Castellanos, Josué Aguilar and Miguel Alvarado. Abstract: Two of the main signal processing methods in passive SONAR are beamforming and LOFAR. In this work, an implementation in FPGA of each method was made. For beamforming, the conventional delay and sum method was selected, with free choice of time integration. A conventional FFT of 1024 points was programmed for LOFAR. Test results show the viability to implement both methods in a Nexys 4 DDR FPGA board, under our architecture design specifications. The architecture implemented provides flexibility to interchange algorithms, ease to software re-programing and facilities to expand it, compared with a hardware implement architecture. A Technique to Improve the Transconductance in Amplifiers Santiago Medina-Vazquez, Marco Gurrola-Navarro, Carlos Bonilla-Barragan and Martín Villegas. Abstract: This paper presents a technique for improving the response of amplifier implemented with multiple inputs floating gate transistor for processing input signals of very small amplitude. With the technique presented here, it is possible to improve the transconductance of the amplifier, maintaining all the positive features of the device as variable threshold voltage and very-low voltages applications. This document shows the proposed technique and its implementation in SPICE using CMOS technological parameters for 0.35 um process. Additionally, the results obtained using a common source amplifier to validate the feasibility of the proposed technique are included.
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
APPENDIX
Author Index A
Abarca-Jimenez, Griselda Stephany 3-layered Capacitive Structure Design for MEMS Inertial Sensing
Acevedo, Pedro Pulse Generator for Ultrasonic PZT and PVDF Transducer Arrays Based on a Programmable System-on-Chip (PSoC)
Aceves-Mijares, Mariano UV Electroluminescence from ITO/SRO/p-Si and ITO/SRN/SRO/p-Si Structures
Aganza-Torres, Alejandro Large scale photovoltaic structures with medium-frequency isolation
Aguilar, Josué A LOFAR and Beamforming Implementation in a FPGA for a Digital Passive SONAR
Aguillon, Nestor Stability Chart of Hill’s Equation by a Sturm-Liouville Approach
Almaraz Hernández, Andrea Biomimetic prototype to the physio-anatomy of the cactus Pachycereus Pecten-Aboriginum, for application to catchment system atmospheric dew water.
Altamirano, Alvaro Myoelectric signal analysis using Hilbert-Huang Transform to identify muscle activation features
Altamirano-Altamirano, A. External knee prosthesis with four bar linkage mechanism
Altuzar Aguilar, Victor Manuel Automatization and control of home-made micro injection pumps for a microfluidic system
Alvarado Serrano, Carlos Effects of negative affective sounds on P300 An Algorithm for QT Dispersion Analysis: Validation and Application in Chronic Kidney Disease
Alvarado, Miguel A LOFAR and Beamforming Implementation in a FPGA for a Digital Passive SONAR
Alvarado, Sergio An Effective Mutation Operator to Deal with Multi-objective Constrained Problems: SPM
Alvarado-Serrano, Carlos Fetal ECG extraction based on Adaptive Filters and Wavelet Transform: Validation and Application in Fetal Heart Rate Variability Analysis
Álvarez Cervera, M.M Development of a Detection System Microaneurysms in Color Fundus Images
Anzueto-Rios, Alvaro Fuzzy Inference System for Region Segmentation Using the YCbCr Color Model
Aponte, F. Javier Ramírez Facile One Pot Synthesis of Single Phase Kesterite Cu2ZnSnS4 Nanocrystals Influence of Reaction Time on Cu(In,Ga)Se2 Particle Synthesis by Thermal Decomposition Method
Arceo, Juan Carlos Nonlinear Convex Control of the Furuta Pendulum Based on its Descriptor Model
Arellano, Miguel Galván Facile One Pot Synthesis of Single Phase Kesterite Cu2ZnSnS4 Nanocrystals Influence of Reaction Time on Cu(In,Ga)Se2 Particle Synthesis by Thermal Decomposition Method
Avila Herrera, Fernando Modeling the Variation of Threshold Voltage, Mobility Factor and
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Saturation Coefficient in Amorphous Indium-Gallium-Zinc Oxide Thin Film Transistors
Azhmyakov, Vadim
Robust Control for a Class of Continuous Dynamical System Governed by Semi-Explicit DAE with Data -Sample Outputs Attractive Ellipsoids Based Robust Control Design of Switched Systems: a Geometrical Approach
B
Baez Alvarez, Carlos Ramon A Set of Test Structures for the Development of a CMOS-MEMS Technology
Balderrama, Victor Performance Parameters Degradation of Inverted Organic Solar Cells Exposed Under Solar and Artificial Irradiance, Using PTB7:PC70BM as Active Layer
Barrera-Figueroa, Victor On the Importance of the Vertical Radiation Pattern on Simulations of WSNs
Barrios, Manuel Large scale photovoltaic structures with medium-frequency isolation
Bayareh Mancilla, Rafael Simulation of the temperature distribution on a diabetic foot model: a first approximation
Begovich Mendoza, Ofelia Bank of Leak Diagnosis Algorithms for Pressurized Pipelines
Bernal, Miguel Nonlinear Convex Control of the Furuta Pendulum Based on its Descriptor Model
Bonilla-Barragan, Carlos A Technique to Improve the Transconductance in Amplifiers
Brito-Brito, Zabdiel Modelling of Single-ended Interconnects Using Surrogate Model and DoE Tech
C
Cabañas-Tay, Santiago Antonio
Effect of the Active Layer Thickness on the Electrical and Electroluminescent Properties in Silicon Rich Oxide Based Light Emitting Capacitors UV Electroluminescence from ITO/SRO/p-Si and ITO/SRN/SRO/p-Si Structures
Calleja Arriaga, Wilfrido A Set of Test Structures for the Development of a CMOS-MEMS Technology
Campos-Cruz, Alejandro Advances in BTI modeling for the design of reliable ICs
Canesin, Carlos Alberto Distribution Management System and Control Architecture through a FPGA device for Electrical Distribution Feeders
Cardenas, Victor Large scale photovoltaic structures with medium-frequency isolation
Cardenas-Juarez, Marco Superimposed Training-based Detector for Spectrum Sensing in Cognitive Radio
Carvajal Rubio, Jose Eduardo Bank of Leak Diagnosis Algorithms for Pressurized Pipelines
Castellanos, Luis A LOFAR and Beamforming Implementation in a FPGA for a Digital Passive SONAR
Castillo Ortiz C, C Development of a Detection System Microaneurysms in Color Fundus Images
Castillo, Edgar Modeling Micro-Channel Plates as Astronomical Detectors of UV Radiation
Cañedo Castañeda, Jose Manuel Robust Observer-Based Adaptive Sliding Modes Control of Synchronous Motor
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Cerdeira Altuzarra, Antonio Modeling the Variation of Threshold Voltage, Mobility Factor and Saturation Coefficient in Amorphous Indium-Gallium-Zinc Oxide Thin Film Transistors
Chavez, Miguel Modeling Micro-Channel Plates as Astronomical Detectors of UV Radiation
Closset, Claire A Comparison Between French and Mexican Technovigilance Process
Collado, Joaquin
Monodromy Operator Approximation of Periodic Delay Differential Equations by Walsh Functions Stability Chart of Hill’s Equation by a Sturm-Liouville Approach Attenuation Vibration by Parametric Excitation using the Meissner Equation
Contreras Machado, Victor Hugo Modeling a Conical Applicator for High Intensity Focused Ultrasound with the Finite Element Method
Cortés-Dávalos, Andrés Layout Planning for Academic Exhibits using Augmented Reality
Corzo Cuesta, María De Lourdes An Algorithm for QT Dispersion Analysis: Validation and Application in Chronic Kidney Disease
Cosme Bolaños, Ismael Study of optoelectronics properties of Indium Tin oxide films fabricated by Sputtering in Oxygen atmosphere.
Cosme, Ismael
Effect of Germane in gas phase on Electronic Properties of GeXSiY:H alloys deposited by RF Plasma Discharge Determination of photoelectric parameters of hydrogenated amorphous silicon by the photoelectromotive-force technique
Cruz-Vega, Israel FPGA Implementation of Orthogonal Matching Pursuit Algorithm
Cuate, Oliver A Local Exploration Tool for Linear Many Objective Optimization Problems
D
De Cos Cholula, Héctor Eduardo An Homotopy Path Planning Method with Automatic Fixed Value Assignation of Repulsion Parameter for Mobile Robotics
de La Hidalga Wade, Javier A Set of Test Structures for the Development of a CMOS-MEMS Technology
Delfin Prieto, Sergio Miguel Color image encryption using chaotic systems synchronization
Diaz, Carlos Pulse Generator for Ultrasonic PZT and PVDF Transducer Arrays Based on a Programmable System-on-Chip (PSoC)
Diaz-Sepulveda, Reynaldo Real-time Optimal Tracking Control for a Three-phase Inverter
Domínguez, Sergio Assessment of the Possibility to Couple a Photo Sensor to a Floating-Gate MOS Transistor.
Domínguez-Horna, Carlos Effect of the Active Layer Thickness on the Electrical and Electroluminescent Properties in Silicon Rich Oxide Based Light Emitting Capacitors
Duran, Joel Pulse Generator for Ultrasonic PZT and PVDF Transducer Arrays Based on a Programmable System-on-Chip (PSoC)
Díaz Arango, Gerardo Ulises An Homotopy Path Planning Method with Automatic Fixed Value Assignation of Repulsion Parameter for Mobile Robotics
Díaz-Bernabé, José Simulation of a Double-stage Micro-Inverter for Grid-Connected Photovoltaic Modules
E
Escalante Paredes, M.F Development of a Detection System Microaneurysms in Color Fundus Images
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Espinosa-Flores-Verdad, Guillermo Advances in BTI modeling for the design of reliable ICs
Estrada Del Cueto, Magali Modeling the Variation of Threshold Voltage, Mobility Factor and Saturation Coefficient in Amorphous Indium-Gallium-Zinc Oxide Thin Film Transistors
Estrada, Magali Performance Parameters Degradation of Inverted Organic Solar Cells Exposed Under Solar and Artificial Irradiance, Using PTB7:PC70BM as Active Layer
Estrada-Manzo, Victor Nonlinear Convex Control of the Furuta Pendulum Based on its Descriptor Model
F
Feoktistov, N.A. High Contrast Distributed Bragg Reflectors Based on Si:H/SiC:H PECVD Multilayer Structure
Figueroa, P.Reyes Facile One Pot Synthesis of Single Phase Kesterite Cu2ZnSnS4 Nanocrystals Influence of Reaction Time on Cu(In,Ga)Se2 Particle Synthesis by Thermal Decomposition Method
Flores Leal, Ruben On the Importance of the Vertical Radiation Pattern on Simulations of WSNs
Flores-Nava, Luis Martin 3-layered Capacitive Structure Design for MEMS Inertial Sensing
Fuentes, Adolfo Tavira Facile One Pot Synthesis of Single Phase Kesterite Cu2ZnSnS4 Nanocrystals Influence of Reaction Time on Cu(In,Ga)Se2 Particle Synthesis by Thermal Decomposition Method
Fuentes, Martín Pulse Generator for Ultrasonic PZT and PVDF Transducer Arrays Based on a Programmable System-on-Chip (PSoC)
G
Gadi, Suresh Kumar
Robust Control for a Class of Continuous Dynamical System Governed by Semi-Explicit DAE with Data -Sample Outputs Attractive Ellipsoids Based Robust Control Design of Switched Systems: a Geometrical Approach
Galván Tejada, Giselle Monserrat On the Importance of the Vertical Radiation Pattern on Simulations of WSNs
Garcia Avila, Edgar Stable PID Tracking Control with Application to a 7-DoF Exoskeleton Robot
Ghommam, Jawhar Stable PID Tracking Control with Application to a 7-DoF Exoskeleton Robot
Gomez Pozos, Heberto Effect of Al2O3 on the morphological and gas sensing properties of SnO2 pellets
González Chan, Irving Josué Chemical Bath Deposited Zn(S, OH, O) Films Near Room Temperature: Physicochemical Considerations
González, Mario Large scale photovoltaic structures with medium-frequency isolation
González, Raúl Ernesto Authenticated Encryption Based on Finite Automata Cryptosystems
González-Ambriz, Sergio-Jesús 5GTRADIS: A Novel Traffic Distribution Mechanism for 5G Heterogeneous Networks
Granados-Rojas, Benito 3-layered Capacitive Structure Design for MEMS Inertial Sensing
Gurrola-Navarro, Marco A Technique to Improve the Transconductance in Amplifiers
Gutierrez Salgado, Juan Manuel Effects of negative affective sounds on P300
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Gutierrez Velasco, Mario Ibrahin Simulation of the temperature distribution on a diabetic foot model: a first approximation
Gutiérrez Velasco, Mario Ibrahin
Electric Field Distribution Obtained by Using the Finite Element Method and 3D Reconstruction of a Breast Carcinoma: Approach to the Electroporation of Deep-seated Tumors by Using Two Needle Electrodes Influence of the Surrounding Tissues in the Radiation Pattern of Microcoaxial Antenna for the Treatment of Breast Tumors Modeling a Conical Applicator for High Intensity Focused Ultrasound with the Finite Element Method
Gutiérrez Velasco, Mario Ibrahín Modeling of Electric Field and Joule Heating in Breast Tumor during Electroporation.
Gutiérrez, Josefina A Comparison Between French and Mexican Technovigilance Process
Guzman Trujillo, Luz Adriana Attractive Ellipsoids Based Robust Control Design of Switched Systems: a Geometrical Approach
Gómez, David Predefined-Time Tracking of a Class of Mechanical Systems
Gómez-Castañeda, Felipe Fuzzy Inference System for Region Segmentation Using the YCbCr Color Model
H
Hernandez Barrios, Yoanlys Modeling the Variation of Threshold Voltage, Mobility Factor and Saturation Coefficient in Amorphous Indium-Gallium-Zinc Oxide Thin Film Transistors
Hernandez-Capistran, Jonathan Thesholding Methods Review for Microcalcifications Segmentation on Mammography Images in Obvious, Subtle, and Cluster Categories
Hernández Chávez, Daniel Alberto Modeling a Conical Applicator for High Intensity Focused Ultrasound with the Finite Element Method
Hernández Martínez, Luis An Homotopy Path Planning Method with Automatic Fixed Value Assignation of Repulsion Parameter for Mobile Robotics
Hernández Rodríguez, Pablo Rogelio
Electric Field Distribution Obtained by Using the Finite Element Method and 3D Reconstruction of a Breast Carcinoma: Approach to the Electroporation of Deep-seated Tumors by Using Two Needle Electrodes Modeling of Electric Field and Joule Heating in Breast Tumor during Electroporation.
Hernández-Gómez, Luis Enrique Fuzzy Inference System for Region Segmentation Using the YCbCr Color Model
Hernández-Rodríguez, Pablo Rogelio Fetal ECG extraction based on Adaptive Filters and Wavelet Transform: Validation and Application in Fetal Heart Rate Variability Analysis
Herrera Rivera, Maria Del Rosario Particle Size Effect On Gas Sensing Properties Of ZnO Pellets
I
Ibarra Hernández, Frank Alberto Distribution Management System and Control Architecture through a FPGA device for Electrical Distribution Feeders
Ibarra-Manzano, Oscar
Improving Robustness of Distributed Filtering for Sensor Networks Using FIR Filtering Design of Blind Distributed UFIR Filter based on Average Consensus for WSNs
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Itzmoyotl Toxqui, Adrian Study of optoelectronics properties of Indium Tin oxide films fabricated by Sputtering in Oxygen atmosphere.
Iñiguez, Benjamin Modeling the Variation of Threshold Voltage, Mobility Factor and Saturation Coefficient in Amorphous Indium-Gallium-Zinc Oxide Thin Film Transistors
J James, Christopher Effects of negative affective sounds on P300
Jantsch, Axel Fully Digital Write-in Scheme for Multi-Bit Memristive Storage
Jayaraman, Vinoth Kumar Effect of substrate position on structural, morphological, and optical properties of reactively sputtered ZnO thin films
Jiménez Rodríguez, Esteban Predefined-Time Tracking of a Class of Mechanical Systems
Juarez, Raymundo
Robust Control for a Class of Continuous Dynamical System Governed by Semi-Explicit DAE with Data -Sample Outputs Attractive Ellipsoids Based Robust Control Design of Switched Systems: a Geometrical Approach
K
Kosarev, Andrey
Study of optoelectronics properties of Indium Tin oxide films fabricated by Sputtering in Oxygen atmosphere. High Contrast Distributed Bragg Reflectors Based on Si:H/SiC:H PECVD Multilayer Structure Effect of Germane in gas phase on Electronic Properties of GeXSiY:H alloys deposited by RF Plasma Discharge Determination of photoelectric parameters of hydrogenated amorphous silicon by the photoelectromotive-force technique
Kudriavtsev, Yuriy High Contrast Distributed Bragg Reflectors Based on Si:H/SiC:H PECVD Multilayer Structure
L
Ladd Parada, Jennifer Effects of negative affective sounds on P300
Lara Aguayo, Jaime Ernesto Influence of the Surrounding Tissues in the Radiation Pattern of Microcoaxial Antenna for the Treatment of Breast Tumors
Lara, Adriana An Effective Mutation Operator to Deal with Multi-objective Constrained Problems: SPM A Local Exploration Tool for Linear Many Objective Optimization Problems
Leija Salas, Lorenzo
Myoelectric signal analysis using Hilbert-Huang Transform to identify muscle activation features Electric Field Distribution Obtained by Using the Finite Element Method and 3D Reconstruction of a Breast Carcinoma: Approach to the Electroporation of Deep-seated Tumors by Using Two Needle Electrodes Modeling of Electric Field and Joule Heating in Breast Tumor during Electroporation. Influence of the Surrounding Tissues in the Radiation Pattern of Microcoaxial Antenna for the Treatment of Breast Tumors Simulation of the temperature distribution on a diabetic foot model: a first approximation Modeling a Conical Applicator for High Intensity Focused Ultrasound with the Finite Element Method
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Leija, Lorenzo A Comparison Between French and Mexican Technovigilance Process
Lima-Herrera, Sara Lilia Fetal ECG extraction based on Adaptive Filters and Wavelet Transform: Validation and Application in Fetal Heart Rate Variability Analysis
Linares Aranda, Mónico A Set of Test Structures for the Development of a CMOS-MEMS Technology
Liu, Wen Yu Stable Active Vibration Control of Building Structure Subjected to Bidirectional Earthquake
Lopez, Miguel Angel Vertically aligned ZnO nanorod arrays grown by chemical bath deposition on bare- and ITO-coated glass substrates
Lopez-Lopez, Lizeth Superimposed Training-based Detector for Spectrum Sensing in Cognitive Radio
Loukianov, Alexander Arbitrary References Output Tracking in Linear Systems
Loukianov, Alexander G. Predefined-Time Tracking of a Class of Mechanical Systems Robust Observer-Based Adaptive Sliding Modes Control of Synchronous Motor
M
Machin, Jediael Robust Observer-Based Adaptive Sliding Modes Control of Synchronous Motor
Maldonado Alvarez, Arturo
Synthesis, Characterization and Photocatalytic activity of TiO2 Powders Effect of milling speed on the precursor Zinc acetylacetonate destined to obtain ZnO thin films Particle Size Effect On Gas Sensing Properties Of ZnO Pellets
Maldonado, Arturo
Effect of substrate position on structural, morphological, and optical properties of reactively sputtered ZnO thin films Effect of Al2O3 on the morphological and gas sensing properties of SnO2 pellets
Malo Tamayo, Alejandro Study of a Small Aircraft for Control Development and UAV task
Manoj P. D., Sai Fully Digital Write-in Scheme for Multi-Bit Memristive Storage
Mansurova, Svetlana
Study of optoelectronics properties of Indium Tin oxide films fabricated by Sputtering in Oxygen atmosphere. Effect of Germane in gas phase on Electronic Properties of GeXSiY:H alloys deposited by RF Plasma Discharge Determination of photoelectric parameters of hydrogenated amorphous silicon by the photoelectromotive-force technique
Manzanárez Salmerón, Adriana Influence of the Surrounding Tissues in the Radiation Pattern of Microcoaxial Antenna for the Treatment of Breast Tumors
Marasamy, Latha Facile One Pot Synthesis of Single Phase Kesterite Cu2ZnSnS4 Nanocrystals Influence of Reaction Time on Cu(In,Ga)Se2 Particle Synthesis by Thermal Decomposition Method
Martinez, Geovanni Intensity-Difference Based 3D Video Stabilization for Planetary Robots
Martinez, Hiram
High Contrast Distributed Bragg Reflectors Based on Si:H/SiC:H PECVD Multilayer Structure Determination of photoelectric parameters of hydrogenated amorphous silicon by the photoelectromotive-force technique
Martinez-Carballido, Jorge F. Thesholding Methods Review for Microcalcifications Segmentation on
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Mammography Images in Obvious, Subtle, and Cluster Categories
Martinez-Guerra, Rafael Color image encryption using chaotic systems synchronization
Martínez, Hiram Enrique Effect of Germane in gas phase on Electronic Properties of GeXSiY:H alloys deposited by RF Plasma Discharge
Martínez, Juan Carlos Robust Controller for Aircraft Roll Control System using Data Flight Parameters
Martínez-Carballido, Jorge Francisco Thesholding Methods Review for the Location of the Optic Disc in Retinal Fundus Color Images
Mata Frayre, Viridiana Effect of milling speed on the precursor Zinc acetylacetonate destined to obtain ZnO thin films
Matsumoto, Yasuhiro
Synthesis and characterization of magnetite-graphene oxide nanocomposite Vertically aligned ZnO nanorod arrays grown by chemical bath deposition on bare- and ITO-coated glass substrates Effect of substrate position on structural, morphological, and optical properties of reactively sputtered ZnO thin films
Matus Muñoz, Miguel Russell Automatization and control of home-made micro injection pumps for a microfluidic system
Mayorga Cruz, Darwin Determination of photoelectric parameters of hydrogenated amorphous silicon by the photoelectromotive-force technique
Medina-Vazquez, Santiago A Technique to Improve the Transconductance in Amplifiers
Menchaca-Mendez, Rolando 5GTRADIS: A Novel Traffic Distribution Mechanism for 5G Heterogeneous Networks
Mendoza Barrera, Claudia Oliva Automatization and control of home-made micro injection pumps for a microfluidic system
Mendoza, Sonia Layout Planning for Academic Exhibits using Augmented Reality
Mendoza-Acevedo, Salvador Assessment of the Possibility to Couple a Photo Sensor to a Floating-Gate MOS Transistor.
Mohan, Rohini Facile One Pot Synthesis of Single Phase Kesterite Cu2ZnSnS4 Nanocrystals Influence of Reaction Time on Cu(In,Ga)Se2 Particle Synthesis by Thermal Decomposition Method
Moldovan, Oana Modeling the Variation of Threshold Voltage, Mobility Factor and Saturation Coefficient in Amorphous Indium-Gallium-Zinc Oxide Thin Film Transistors
Montesinos Garcia, Juan Javier Color image encryption using chaotic systems synchronization
Morales, Jacob Synthesis, Characterization and Photocatalytic activity of TiO2 Powders
Morales-Acevedo, Arturo Simulation of a Double-stage Micro-Inverter for Grid-Connected Photovoltaic Modules
Morales-Perez, Carlos FPGA Implementation of Orthogonal Matching Pursuit Algorithm
Morales-Sánchez, Alfredo
Effect of the Active Layer Thickness on the Electrical and Electroluminescent Properties in Silicon Rich Oxide Based Light Emitting Capacitors UV Electroluminescence from ITO/SRO/p-Si and ITO/SRN/SRO/p-Si Structures
Moreno Mojica, Aurea Edna Modelling of Single-ended Interconnects Using Surrogate Model and DoE
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Tech
Moreno, Jose A. Assessment of the Possibility to Couple a Photo Sensor to a Floating-Gate MOS Transistor.
Moreno-Cadenas, Jose Antonio 3-layered Capacitive Structure Design for MEMS Inertial Sensing
Moreno-Cadenas, José A. Fuzzy Inference System for Region Segmentation Using the YCbCr Color Model
Munoz, Jorge Improving Approximation of Jitter Probability in the Breakpoints of Simulated Copy Number Alterations
Márquez, Raymundo Nonlinear Convex Control of the Furuta Pendulum Based on its Descriptor Model
N
Nava Martínez, Rutilio Development of a Detection System Microaneurysms in Color Fundus Images
Nava, Luis M. Assessment of the Possibility to Couple a Photo Sensor to a Floating-Gate MOS Transistor.
O
Oliva Arias, Andrés Iván Chemical Bath Deposited Zn(S, OH, O) Films Near Room Temperature: Physicochemical Considerations
Olivares Vargas, Antonio Study of optoelectronics properties of Indium Tin oxide films fabricated by Sputtering in Oxygen atmosphere.
Olivera, Reynel Improving Approximation of Jitter Probability in the Breakpoints of Simulated Copy Number Alterations
Olvera Amador, Maria De La Luz
Synthesis, Characterization and Photocatalytic activity of TiO2 Powders Effect of milling speed on the precursor Zinc acetylacetonate destined to obtain ZnO thin films Particle Size Effect On Gas Sensing Properties Of ZnO Pellets Effect of Al2O3 on the morphological and gas sensing properties of SnO2 pellets
Olvera, Ma De La Luz Automatization and control of home-made micro injection pumps for a microfluidic system
Olvera, Maria De La Luz Effect of substrate position on structural, morphological, and optical properties of reactively sputtered ZnO thin films
Olvera, María De La Luz Nanoparticles of Zinc Oxide Obtained by Water in Oil Microemulsion System
Ornelas-Tellez, Fernando Real-time Optimal Tracking Control for a Three-phase Inverter
Orozco, Santos Active Disturbance Rejection Control for Humanoid Stable Walking
Orozco-Lugo, Aldo G. Superimposed Training-based Detector for Spectrum Sensing in Cognitive Radio
Ortega Amaya, Rebeca Synthesis and characterization of magnetite-graphene oxide nanocomposite
Ortega Lopez, Mauricio Synthesis and characterization of magnetite-graphene oxide nanocomposite
Ortega, Mauricio Vertically aligned ZnO nanorod arrays grown by chemical bath deposition
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
on bare- and ITO-coated glass substrates
P
Palacios-Huerta, Liliana UV Electroluminescence from ITO/SRO/p-Si and ITO/SRN/SRO/p-Si Structures
Paul, Satyam Stable Active Vibration Control of Building Structure Subjected to Bidirectional Earthquake
Peregrina-Barreto, Hayde FPGA Implementation of Orthogonal Matching Pursuit Algorithm
Perez Guzman, Manuel Alejandro Synthesis and characterization of magnetite-graphene oxide nanocomposite
Perrusquia, Adolfo Robust Controller for Aircraft Roll Control System using Data Flight Parameters
Pevtsov, A.B. High Contrast Distributed Bragg Reflectors Based on Si:H/SiC:H PECVD Multilayer Structure
Pineda, Ana María Nanoparticles of Zinc Oxide Obtained by Water in Oil Microemulsion System
Pineda-Rico, Ulises Superimposed Training-based Detector for Spectrum Sensing in Cognitive Radio
Pozos, Angel Modeling Micro-Channel Plates as Astronomical Detectors of UV Radiation
R
Ramirez, Norma Development of a Detection System Microaneurysms in Color Fundus Images
Ramirez-Cortes, Juan FPGA Implementation of Orthogonal Matching Pursuit Algorithm
Ramírez Barrios, Miguel Luis Attenuation Vibration by Parametric Excitation using the Meissner Equation
Ramírez Martínez, Carlos Alberto
Electric Field Distribution Obtained by Using the Finite Element Method and 3D Reconstruction of a Breast Carcinoma: Approach to the Electroporation of Deep-seated Tumors by Using Two Needle Electrodes Modeling of Electric Field and Joule Heating in Breast Tumor during Electroporation.
Ramírez-Como, Magaly Performance Parameters Degradation of Inverted Organic Solar Cells Exposed Under Solar and Artificial Irradiance, Using PTB7:PC70BM as Active Layer
Rangel-Magdaleno, Jose FPGA Implementation of Orthogonal Matching Pursuit Algorithm
Rasu Chettiar, Aruna Devi Facile One Pot Synthesis of Single Phase Kesterite Cu2ZnSnS4 Nanocrystals Influence of Reaction Time on Cu(In,Ga)Se2 Particle Synthesis by Thermal Decomposition Method
Rathmair, Michael Fully Digital Write-in Scheme for Multi-Bit Memristive Storage
Reyes, Alfredo Assessment of the Possibility to Couple a Photo Sensor to a Floating-Gate MOS Transistor.
Reyes-Barranca, Mario Alfredo 3-layered Capacitive Structure Design for MEMS Inertial Sensing
Rivero-Angeles, Mario-Eduardo 5GTRADIS: A Novel Traffic Distribution Mechanism for 5G Heterogeneous Networks
Rodriguéz Cuevas, Sergio Modeling of Electric Field and Joule Heating in Breast Tumor during Electroporation.
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Rodríguez Cuevas, Sergio Electric Field Distribution Obtained by Using the Finite Element Method and 3D Reconstruction of a Breast Carcinoma: Approach to the Electroporation of Deep-seated Tumors by Using Two Needle Electrodes
Ruiz Duarte, Jorge Enrique Arbitrary References Output Tracking in Linear Systems
Ruiz Díaz, F. Daniel External knee prosthesis with four bar linkage mechanism
S
S. Shmaliy, Yuriy Improving Approximation of Jitter Probability in the Breakpoints of Simulated Copy Number Alterations
Saad, Maarouf Stable PID Tracking Control with Application to a 7-DoF Exoskeleton Robot
Salas, Francisco Guillermo Robust Control for a Class of Continuous Dynamical System Governed by Semi-Explicit DAE with Data -Sample Outputs
Salas, Pedro Ivan Authenticated Encryption Based on Finite Automata Cryptosystems
Salazar, Jaime Santoyo Facile One Pot Synthesis of Single Phase Kesterite Cu2ZnSnS4 Nanocrystals
Sanchez-Gomez, Francisco On the Importance of the Vertical Radiation Pattern on Simulations of WSNs
Sandoval, José Large scale photovoltaic structures with medium-frequency isolation
Santoyo Salazar, Jaime Synthesis and characterization of magnetite-graphene oxide nanocomposite
Sarmiento Reyes, Arturo An Homotopy Path Planning Method with Automatic Fixed Value Assignation of Repulsion Parameter for Mobile Robotics
Schuetze, Oliver An Effective Mutation Operator to Deal with Multi-objective Constrained Problems: SPM A Local Exploration Tool for Linear Many Objective Optimization Problems
Shmaliy, Yuriy
Improving Robustness of Distributed Filtering for Sensor Networks Using FIR Filtering Design of Blind Distributed UFIR Filter based on Average Consensus for WSNs
Soria, Alberto Robust Controller for Aircraft Roll Control System using Data Flight Parameters
Sosa, Víctor An Effective Mutation Operator to Deal with Multi-objective Constrained Problems: SPM
Stevens-Navarro, Enrique Superimposed Training-based Detector for Spectrum Sensing in Cognitive Radio
Subramaniam, Velumani Facile One Pot Synthesis of Single Phase Kesterite Cu2ZnSnS4 Nanocrystals Influence of Reaction Time on Cu(In,Ga)Se2 Particle Synthesis by Thermal Decomposition Method
Sánchez, Edgar Real-time Optimal Tracking Control for a Three-phase Inverter
Sánchez-Torres, Juan Diego Predefined-Time Tracking of a Class of Mechanical Systems
T
Taherinejad, Nima Fully Digital Write-in Scheme for Multi-Bit Memristive Storage
Tangirala, Venkata Krishna Karthik Effect of Al2O3 on the morphological and gas sensing properties of SnO2 pellets
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Tenorio, Aldo Yair Automatization and control of home-made micro injection pumps for a microfluidic system
Tlelo-Cuautle, Esteban Advances in BTI modeling for the design of reliable ICs
Torres Jacome, Alfonso A Set of Test Structures for the Development of a CMOS-MEMS Technology
Tovar, Carlos Robust Controller for Aircraft Roll Control System using Data Flight Parameters
Trujillo, Leonardo Modeling Micro-Channel Plates as Astronomical Detectors of UV Radiation
U
Uribe-Valencia, Laura Juliana Thesholding Methods Review for the Location of the Optic Disc in Retinal Fundus Color Images
V
Valentino Orozco, G. Alejandro External knee prosthesis with four bar linkage mechanism
Vazquez, Eli Abraham Monodromy Operator Approximation of Periodic Delay Differential Equations by Walsh Functions
Vazquez-Olguin, Miguel
Improving Robustness of Distributed Filtering for Sensor Networks Using FIR Filtering Design of Blind Distributed UFIR Filter based on Average Consensus for WSNs
Vera Hernandez, Arturo Myoelectric signal analysis using Hilbert-Huang Transform to identify muscle activation features
Vera Hernández, Arturo
Electric Field Distribution Obtained by Using the Finite Element Method and 3D Reconstruction of a Breast Carcinoma: Approach to the Electroporation of Deep-seated Tumors by Using Two Needle Electrodes Modeling of Electric Field and Joule Heating in Breast Tumor during Electroporation. Influence of the Surrounding Tissues in the Radiation Pattern of Microcoaxial Antenna for the Treatment of Breast Tumors Simulation of the temperature distribution on a diabetic foot model: a first approximation Modeling a Conical Applicator for High Intensity Focused Ultrasound with the Finite Element Method
Vera Tizatl, Adriana Leticia
Electric Field Distribution Obtained by Using the Finite Element Method and 3D Reconstruction of a Breast Carcinoma: Approach to the Electroporation of Deep-seated Tumors by Using Two Needle Electrodes Modeling of Electric Field and Joule Heating in Breast Tumor during Electroporation.
Vera Tizatl, Claudia Elizabeth
Electric Field Distribution Obtained by Using the Finite Element Method and 3D Reconstruction of a Breast Carcinoma: Approach to the Electroporation of Deep-seated Tumors by Using Two Needle Electrodes Modeling of Electric Field and Joule Heating in Breast Tumor during Electroporation.
Vera, Arturo A Comparison Between French and Mexican Technovigilance Process
Villegas, Martín A Technique to Improve the Transconductance in Amplifiers
Vite, Osbaldo Improving Approximation of Jitter Probability in the Breakpoints of Simulated Copy Number Alterations
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Vázquez Hernández, Mónica Pulse Generator for Ultrasonic PZT and PVDF Transducer Arrays Based on a Programmable System-on-Chip (PSoC)
Vázquez Y Parraguirre, Saraí Study of optoelectronics properties of Indium Tin oxide films fabricated by Sputtering in Oxygen atmosphere.
Vázquez, David Nonlinear Convex Control of the Furuta Pendulum Based on its Descriptor Model
W
Wen, Yu Dynamic Feedforward Network Architecture Design Based on Information Entropy
Wolf, Didier Myoelectric signal analysis using Hilbert-Huang Transform to identify muscle activation features
X
Xiaoou, Li Dynamic Feedforward Network Architecture Design Based on Information Entropy
Y
Yu, Wen Stable PID Tracking Control with Application to a 7-DoF Exoskeleton Robot
Z
Zhaozhao, Zhang Dynamic Feedforward Network Architecture Design Based on Information Entropy
Zherzdev, A.V. High Contrast Distributed Bragg Reflectors Based on Si:H/SiC:H PECVD Multilayer Structure
Zárate, Sarai Effect of Germane in gas phase on Electronic Properties of GeXSiY:H alloys deposited by RF Plasma Discharge
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Author Information Author Country Affiliation
A. Altamirano-Altamirano Mexico UPIITA-IPN
A.B. Pevtsov Russia Ioffe Physical Technical Institute
A.V. Zherzdev Russia Ioffe Physical Technical Institute
Adolfo Perrusquia Mexico CINVESTAV-IPN
Adolfo Tavira Fuentes Mexico CINVESTAV-IPN
Adrian Itzmoyotl Toxqui Mexico Instituto Nacional de Astrofísica Óptica y Electrónica
Adriana Lara Mexico Instituto Politécnico Nacional
Adriana Leticia Vera Tizatl Mexico CINVESTAV-IPN
Adriana Manzanárez Salmerón Mexico CINVESTAV-IPN
Alberto Soria Mexico CINVESTAV-IPN
Aldo G. Orozco-Lugo Mexico CINVESTAV-IPN
Aldo Yair Tenorio Mexico CINVESTAV-IPN
Alejandro Aganza-Torres Mexico UASLP
Alejandro Campos-Cruz Mexico INAOE
Alejandro Malo Tamayo Mexico CINVESTAV-IPN
Alexander G. Loukianov Mexico CINVESTAV IPN Guadalajara
Alfonso Torres Jacome Mexico INAOE
Alfredo Morales-Sánchez Mexico Centro de Investigación en Materiales Avanzados S. C.
Alfredo Reyes Mexico CINVESTAV-IPN
Alvaro Altamirano Mexico CINVESTAV-IPN
Alvaro Anzueto-Rios Mexico UPIITA-IPN
Ana María Pineda Mexico CINVESTAV-IPN
Andrea Almaraz Hernández Mexico UPIITA - IPN
Andrés Cortés-Dávalos Mexico CINVESTAV-IPN
Andrés Iván Oliva Arias Mexico CINVESTAV IPN, Unidad Mérida
Andrey Kosarev Mexico Instituto Nacional de Astrofísica, Óptica y Electrónica
Angel Pozos Mexico Tecnologico Nacional de Mexico - Instituto Tecnologico de Tijuana
Antonio Cerdeira Altuzarra Mexico CINVESTAV-IPN
Antonio Olivares Vargas Mexico Instituto Nacional de Astrofísica Óptica y Electrónica
Arturo Maldonado Mexico CINVESTAV-IPN
Arturo Maldonado Alvarez Mexico CINVESTAV-IPN
Arturo Morales-Acevedo Mexico CINVESTAV del IPN
Arturo Sarmiento Reyes Mexico INAOE
Arturo Vera Hernandez Mexico CINVESTAV-IPN
Aruna Devi Rasu Chettiar Mexico CINVESTAV
Aurea Edna Moreno Mojica Mexico ITESO
Axel Jantsch Austria TU Wien
Benito Granados-Rojas Mexico CINVESTAV-IPN
Benjamin Iñiguez Spain universitat rivori i virgili
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Author Country Affiliation
C Castillo Ortiz C Mexico Hospital Regional de Alta Especialidad de la Península de Yucatán
Carlos Alberto Canesin Colombia São Paulo State University
Carlos Alberto Ramírez Martínez Mexico CINVESTAV-IPN
Carlos Alvarado Serrano Mexico CINVESTAV-IPN
Carlos Bonilla-Barragan Mexico Universidad de Guadalajara
Carlos Diaz Mexico Universidad Nacional Autónoma de México
Carlos Domínguez-Horna Spain Instituto de Microelectrónica de Barcelona IMB-CNM (CSIC)
Carlos Morales-Perez Mexico INAOE
Carlos Ramon Baez Alvarez Mexico INAOE
Carlos Tovar Mexico CINVESTAV-IPN
Christopher James United Kingdom Warwick University
Claire Closset France faculté de médecine
Claudia Elizabeth Vera Tizatl Mexico CINVESTAV
Claudia Oliva Mendoza Barrera Mexico MICRONA UV
Daniel Alberto Hernández Chávez Mexico CINVESTAV-IPN
Darwin Mayorga Cruz Mexico UAEM
David Gómez Mexico CINVESTAV-Guadalajara
David Vázquez Mexico Sonora Institute of Technology
Didier Wolf France CRAN Universite de Lorraine UMR 7039
Edgar Castillo Mexico Instituto Nacional de Astrofisica, Optica y Electronica
Edgar Garcia Avila Mexico CINVESTAV-IPN
Edgar Sánchez Mexico CINVESTAV, Unidad Guadalajara
Eli Abraham Vazquez Mexico CINVESTAV-IPN
Enrique Stevens-Navarro Mexico Universidad Autónoma de San Luis Potosí (UASLP)
Esteban Jiménez Rodríguez Mexico CINVESTAV -Guadalajara
Esteban Tlelo-Cuautle Mexico INAOE
F. Daniel Ruiz Díaz Mexico SEPI ESIME AZCAPOTZALCO-IPN
F. Javier Ramírez Aponte Mexico CINVESTAV-IPN
Felipe Gómez-Castañeda Mexico CINVESTAV-IPN
Fernando Avila Herrera Mexico CINVESTAV-IPN
Fernando Ornelas-Tellez Mexico Universidad Michoacana de San Nicolas de Hidalgo
Francisco Guillermo Salas Mexico UNIVERSIDAD POLITECNICA DE GOMEZ PALACIO
Francisco Sanchez-Gomez Mexico UPIITA
Frank Alberto Ibarra Hernández Colombia University of Sinú
G. Alejandro Valentino Orozco Mexico UPIITA-IPN
Geovanni Martinez Costa Rica University of Costa Rica
Gerardo Ulises Díaz Arango Mexico INAOE
Giselle Monserrat Galván Tejada Mexico CINVESTAV-IPN
Griselda Stephany Abarca-Jimenez Mexico CINVESTAV-IPN
Guillermo Espinosa-Flores-Verdad Mexico INAOE
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Author Country Affiliation Hayde Peregrina-Barreto Mexico INAOE
Heberto Gomez Pozos Mexico Universidad Autonoma de Estado morelos
Héctor Eduardo De Cos Cholula Mexico INAOE
Hiram Enrique Martínez Mexico Instituto Nacional de Astrofísica, Óptica y Electrónica
Irving Josué González Chan Mexico CINVESTAV IPN, Unidad Mérida
Ismael Cosme Mexico Instituto Nacional de Astrofísica, Óptica y Electrónica
Ismael Cosme Bolaños Mexico Instituto Nacional de Astrofísica Óptica y Electrónica,Consejo Nacional de Ciencia y Tecnología (CONACyT)-INAOE
Israel Cruz-Vega Mexico INAOE
Jacob Morales Mexico CINVESTAV-IPN
Jaime Ernesto Lara Aguayo Mexico CINVESTAV-IPN
Jaime Santoyo Salazar Mexico CINVESTAV-IPN
Javier de La Hidalga Wade Mexico INAOE
Jawhar Ghommam Canada École de Technologie Supérieure
Jediael Machin Mexico CINVESTAV-IPN
Jennifer Ladd Parada Mexico CINVESTAV-IPN
Joaquin Collado Mexico CINVESTAV-IPN
Joel Duran Mexico Universidad Nacional Autónoma de México
Jonathan Hernandez-Capistran Mexico INAOE
Jorge Enrique Ruiz Duarte Mexico CINVESTAV IPN Guadalajara
Jorge F. Martinez-Carballido Mexico INAOE
Jorge Francisco Martínez-Carballido Mexico INAOE
Jorge Munoz Mexico Universidad de Guanajuato
Jose Antonio Moreno-Cadenas Mexico CINVESTAV-IPN
José Díaz-Bernabé Mexico Centro De Investigación y de Estudios Avanzados Del IPN
Jose Eduardo Carvajal Rubio Mexico Instituto Tecnológico Superior de Tamazula de Gordiano
Jose Manuel Cañedo Castañeda Mexico CINVESTAV-IPN
Jose Rangel-Magdaleno Mexico INAOE
José Sandoval Mexico UASLP
Josefina Gutiérrez Mexico Instituto Nacional de Rehabilitación "Luis Guillermo Ibarra Ibarra"
Josué Aguilar Mexico INIDETAM
Juan Carlos Arceo Mexico Sonora Institute of Technology
Juan Carlos Martínez Mexico CINVESTAV-IPN
Juan Diego Sánchez-Torres Mexico ITESO Guadalajara
Juan Javier Montesinos Garcia Mexico CINVESTAV-IPN
Juan Manuel Gutierrez Salgado Mexico CINVESTAV-IPN
Juan Ramirez-Cortes Mexico INAOE
Latha Marasamy Mexico CINVESTAV-IPN
Laura Juliana Uribe-Valencia Mexico INAOE
Leonardo Trujillo Mexico Tecnologico Nacional de Mexico - Instituto Tecnologico de
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Author Country Affiliation Tijuana
Li Xiaoou Mexico Departamento de Computer Science, CINVESTAV-IPN (National Polytechnic Institute)
Liliana Palacios-Huerta Mexico INAOE
Lizeth Lopez-Lopez Mexico Universidad Autónoma de San Luis Potosí
Lorenzo Leija Salas Mexico CINVESTAV-IPN
Luis Castellanos Mexico INIDETAM
Luis Enrique Hernández-Gómez Mexico UPIITA-IPN
Luis Hernández Martínez Mexico INAOE
Luis M. Nava Mexico CINVESTAV-IPN
Luis Martin Flores-Nava Mexico CINVESTAV-IPN
Luz Adriana Guzman Trujillo Colombia UNIVERSIDAD ANTONIO NARIÑO
M.F Escalante Paredes Mexico Instituto Tecnológico de Mérida
M.M Álvarez Cervera Mexico Instituto Tecnológico de Mérida
Ma De La Luz Olvera Mexico SEES CINVESTAV
Maarouf Saad Canada École de Technologie Supérieure
Magali Estrada Del Cueto Mexico CINVESTAV-IPN
Magaly Ramírez-Como Mexico CINVESTAV-IPN
Manuel Alejandro Perez Guzman Mexico CINVESTAV-IPN
Manuel Barrios Mexico UASLP
Marco Cardenas-Juarez Mexico Universidad Autónoma de San Luis Potosí
Marco Gurrola-Navarro Mexico Universidad de Guadalajara
Maria De La Luz Olvera Mexico CINVESTAV-IPN
María De Lourdes Corzo Cuesta Mexico CINVESTAV-IPN
Maria Del Rosario Herrera Rivera Mexico CINVESTAV-IPN
Mariano Aceves-Mijares Mexico INAOE
Mario Alfredo Reyes-Barranca Mexico CINVESTAV-IPN
Mario González Mexico UASLP
Mario Ibrahin Gutierrez Velasco Mexico CINVESTAV-IPN
Mario Ibrahin Gutiérrez Velasco Mexico CONACYT-Instituto Nacional de Rehabilitación
Mario Ibrahin Gutiérrez Velasco Mexico CONACYT-Instituto Nacional de Rehabilitación Subdirección de Investigación Biotecnológica
Mario-Eduardo Rivero-Angeles Mexico CIC-IPN
Martín Fuentes Mexico Universidad Nacional Autónoma de México
Martín Villegas Mexico Universidad de Guadalajara
Mauricio Ortega Mexico CINVESTAV-IPN
Mauricio Ortega Lopez Mexico CINVESTAV-IPN
Michael Rathmair Austria TU Wien
Miguel Alvarado Mexico INIDETAM
Miguel Angel Lopez Mexico CINVESTAV-IPN
Miguel Bernal Mexico Sonora Institute of Technology
Miguel Chavez Mexico Instituto Nacional de Astrofisica, Optica y Electronica
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Author Country Affiliation Miguel Galván Arellano Mexico CINVESTAV-IPN
Miguel Luis Ramírez Barrios Mexico Centro de Investigación y Estudios Avanzados del IPN
Miguel Russell Matus Muñoz Mexico MICRONA UV
Miguel Vazquez-Olguin Mexico Universidad de Guanajuato
Mónica Vázquez Hernández Mexico Universidad Nacional Autonoma de México
Mónico Linares Aranda Mexico INAOE
N.A. Feoktistov Russia Ioffe Physical Technical Institute
Nestor Aguillon Mexico CINVESTAV-IPN
Nima Taherinejad Austria TU Wien
Norma Ramirez Spain Centro de Tecnologia Biomedica
Oana Moldovan Spain universitat rivori i virgili
Ofelia Begovich Mendoza Mexico CINVESTAV -Guadalajara
Oliver Cuate Mexico CINVESTAV-IPN
Oliver Schuetze Mexico CINVESTAV-IPN
Osbaldo Vite Mexico Universidad de Zacatecas
Oscar Ibarra-Manzano Mexico Universidad de Guanajuato
P.Reyes Figueroa Mexico CINVESTAV-IPN
Pablo Rogelio Hernández-Rodríguez Mexico Centro de Investigación y Estudios Avanzados del Instituto Politécnico Nacional
Pedro Acevedo Mexico Universidad Nacional Autónoma de México
Pedro Ivan Salas Mexico CINVESTAV -Unidad Guadalajara
Rafael Bayareh Mancilla Mexico CINVESTAV-IPN
Rafael Martinez-Guerra Mexico CINVESTAV-IPN
Raúl Ernesto González Mexico CINVESTAV -Unidad Guadalajara
Raymundo Juarez Mexico UNIVERSIDAD AUTONOMA DE COAHUILA
Raymundo Márquez Mexico Sonora Institute of Technology
Rebeca Ortega Amaya Mexico CINVESTAV-IPN
Reynaldo Diaz-Sepulveda Mexico UMSNH
Reynel Olivera Mexico Universidad de Zacatecas
Rohini Mohan Mexico CINVESTAV
Rolando Menchaca-Mendez Mexico CIC-IPN
Ruben Flores Leal Mexico CINVESTAV-IPN
Rutilio Nava Martínez Mexico Instituto Tecnológico de Mérida
Sai Manoj P. D. Austria TU Wien
Salvador Mendoza-Acevedo Mexico Centro de Investigación en Computación-IPN
Santiago Antonio Cabañas-Tay Mexico Centro de Investigación en Materiales Avanzados S. C.
Santiago Medina-Vazquez Mexico Universidad de Guadalajara
Santos Orozco Mexico CINVESTAV Automatic Control Department
Sara Lilia Lima-Herrera Mexico Centro de Investigación y Estudios Avanzados del Instituto Politécnico Nacional
Saraí Vázquez Y Parraguirre Mexico Instituto Nacional de Astrofísica Óptica y Electrónica
Sarai Zárate Mexico Instituto Nacional de Astrofísica, Óptica y Electrónica
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Author Country Affiliation Satyam Paul Mexico CINVESTAV-IPN
Sergio Alvarado Mexico CINVESTAV-IPN
Sergio Domínguez Mexico CINVESTAV-IPN
Sergio Miguel Delfin Prieto Mexico CINVESTAV-IPN
Sergio Rodriguéz Cuevas Mexico Instituto de Enfermedades de la Mama - FUCAM
Sergio Rodríguez Cuevas Mexico Instituto de Enfermedades de la Mama-FUCAM
Sergio-Jesús González-Ambriz Mexico CIC-IPN
Sonia Mendoza Mexico CINVESTAV-IPN
Suresh Kumar Gadi Mexico UNIVERSIDAD AUTONOMA DE COAHUILA
Svetlana Mansurova Mexico Instituto Nacional de Astrofísica, Óptica y Electrónica
Ulises Pineda-Rico Mexico Facultad de Ciencias, Universidad Autónoma de San Luis Potosí (UASLP)
Vadim Azhmyakov Colombia UNIVERSIDAD DE MEDELLIN
Velumani Subramaniam Mexico CINVESTAV-IPN
Venkata Krishna Karthik Tangirala Mexico CINVESTAV-IPN
Victor Balderrama Mexico CINVESTAV-IPN
Victor Barrera-Figueroa Mexico SEPI-UPIITA
Victor Cardenas Mexico UASLP
Victor Estrada-Manzo Mexico Sonora Institute of Technology
Victor Hugo Contreras Machado Mexico CINVESTAV-IPN
Victor Manuel Altuzar Aguilar Mexico MICRONA UV
Víctor Sosa Mexico CINVESTAV-IPN
Vinoth Kumar Jayaraman Mexico CINVESTAV-IPN
Viridiana Mata Frayre Mexico CINVESTAV-IPN
Wen Yu Liu Mexico CINVESTAV-IPN
Wilfrido Calleja Arriaga Mexico INAOE
Yasuhiro Matsumoto Mexico CINVESTAV-IPN
Yoanlys Hernandez Barrios Mexico CINVESTAV-IPN
Yu Wen Mexico Departamento de Control Automático, CINVESTAV-IPN
Yuriy Kudriavtsev Mexico CINVESTAV-IPN
Yuriy S. Shmaliy Mexico Universidad de Guanajuato
Yuriy Shmaliy Mexico Universidad de Guanajuato
Zabdiel Brito-Brito Mexico ITESO
Zhang Zhaozhao China Institute of Electronic and Information Engineering, Liaoning Technical University
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Keywords
Keyword Paper
3
3D linear inverted pendulum Active Disturbance Rejection Control for Humanoid Stable Walking
3d motion estimation Intensity-Difference Based 3D Video Stabilization for Planetary Robots
3D printing Automatization and control of home-made micro injection pumps for a microfluidic system
3D reconstruction Electric Field Distribution Obtained by Using the Finite Element Method and 3D Reconstruction of a Breast Carcinoma: Approach to the Electroporation of Deep-seated Tumors by Using Two Needle Electrodes
3d video stabilization Intensity-Difference Based 3D Video Stabilization for Planetary Robots
5
5g 5GTRADIS: A Novel Traffic Distribution Mechanism for 5G Heterogeneous Networks
A
Acoustic field Modeling a Conical Applicator for High Intensity Focused Ultrasound with the Finite Element Method
Activation energy Effect of Germane in gas phase on Electronic Properties of GeXSiY:H alloys deposited by RF Plasma Discharge
Active contours Modeling Micro-Channel Plates as Astronomical Detectors of UV Radiation
Active disturbance rejection control Active Disturbance Rejection Control for Humanoid Stable Walking
Active mass damper Stable Active Vibration Control of Building Structure Subjected to Bidirectional Earthquake
Adaptive filtering Fetal ECG extraction based on Adaptive Filters and Wavelet Transform: Validation and Application in Fetal Heart Rate Variability Analysis
Adaptive maximum power point tracking Simulation of a Double-stage Micro-Inverter for Grid-Connected Photovoltaic Modules
Adaptive sliding mode control. Robust Observer-Based Adaptive Sliding Modes Control of Synchronous Motor
Adverse incidents A Comparison Between French and Mexican Technovigilance Process
Affective noise Effects of negative affective sounds on P300
Aircraft Robust Controller for Aircraft Roll Control System using Data Flight Parameters
Aircraft model Study of a Small Aircraft for Control Development and UAV task
Algorithm An Algorithm for QT Dispersion Analysis: Validation and Application in Chronic Kidney Disease
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Keyword Paper
Alumina Effect of Al2O3 on the morphological and gas sensing properties of SnO2 pellets
Amorphous silicon Determination of photoelectric parameters of hydrogenated amorphous silicon by the photoelectromotive-force technique
Amplifiers A Technique to Improve the Transconductance in Amplifiers
Analog A Technique to Improve the Transconductance in Amplifiers
Applicator Modeling a Conical Applicator for High Intensity Focused Ultrasound with the Finite Element Method
Approximation Improving Approximation of Jitter Probability in the Breakpoints of Simulated Copy Number Alterations
AR-based collaborative authoring Layout Planning for Academic Exhibits using Augmented Reality
Arbitrary reference Arbitrary References Output Tracking in Linear Systems
Arduino Automatization and control of home-made micro injection pumps for a microfluidic system
Architecture Dynamic Feedforward Network Architecture Design Based on Information Entropy
Attractive ellipsoids Attractive Ellipsoids Based Robust Control Design of Switched Systems: a Geometrical Approach
Authenticated encryption Authenticated Encryption Based on Finite Automata Cryptosystems
Average consensus Improving Robustness of Distributed Filtering for Sensor Networks Using FIR Filtering Design of Blind Distributed UFIR Filter based on Average Consensus for WSNs
B
Bank of Leak Diagnosis Bank of Leak Diagnosis Algorithms for Pressurized Pipelines
Bias temperature instability Advances in BTI modeling for the design of reliable ICs
Bidirectional earthquake Stable Active Vibration Control of Building Structure Subjected to Bidirectional Earthquake
Biomechanics External knee prosthesis with four bar linkage mechanism
Breast Influence of the Surrounding Tissues in the Radiation Pattern of Microcoaxial Antenna for the Treatment of Breast Tumors
Breast cancer Thesholding Methods Review for Microcalcifications Segmentation on Mammography Images in Obvious, Subtle, and Cluster Categories
Breast tissue Modeling of Electric Field and Joule Heating in Breast Tumor during Electroporation.
Breast tissue. Electric Field Distribution Obtained by Using the Finite Element Method and 3D Reconstruction of a Breast Carcinoma: Approach to the Electroporation of Deep-seated Tumors by Using Two Needle Electrodes
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Keyword Paper
C
Cactacea Biomimetic prototype to the physio-anatomy of the cactus Pachycereus Pecten-Aboriginum, for application to catchment system atmospheric dew water.
Cad Thesholding Methods Review for Microcalcifications Segmentation on Mammography Images in Obvious, Subtle, and Cluster Categories Modelling of Single-ended Interconnects Using Surrogate Model and DoE Tech
Cancer Modeling of Electric Field and Joule Heating in Breast Tumor during Electroporation.
Capacitive MEMS 3-layered Capacitive Structure Design for MEMS Inertial Sensing
Capacitive sensing 3-layered Capacitive Structure Design for MEMS Inertial Sensing
Causal tracking Arbitrary References Output Tracking in Linear Systems
Cbd Vertically aligned ZnO nanorod arrays grown by chemical bath deposition on bare- and ITO-coated glass substrates
Chaotic encryption Color image encryption using chaotic systems synchronization
Characteristics Myoelectric signal analysis using Hilbert-Huang Transform to identify muscle activation features
Chemical bath deposition Chemical Bath Deposited Zn(S, OH, O) Films Near Room Temperature: Physicochemical Considerations
Chrominance Fuzzy Inference System for Region Segmentation Using the YCbCr Color Model
Chronic kidney disease An Algorithm for QT Dispersion Analysis: Validation and Application in Chronic Kidney Disease
Cigse particles Influence of Reaction Time on Cu(In,Ga)Se2 Particle Synthesis by Thermal Decomposition Method
Clahe Thesholding Methods Review for the Location of the Optic Disc in Retinal Fundus Color Images
Cloud distribution Modeling Micro-Channel Plates as Astronomical Detectors of UV Radiation
Cmos A Set of Test Structures for the Development of a CMOS-MEMS Technology
Cmos-mems 3-layered Capacitive Structure Design for MEMS Inertial Sensing
Co Effect of Al2O3 on the morphological and gas sensing properties of SnO2 pellets
Coaxial single slot antenna Influence of the Surrounding Tissues in the Radiation Pattern of Microcoaxial Antenna for the Treatment of Breast Tumors
Cognitive radio Superimposed Training-based Detector for Spectrum Sensing in Cognitive Radio
Collector Biomimetic prototype to the physio-anatomy of the cactus Pachycereus Pecten-Aboriginum, for application to catchment system atmospheric dew water.
Color model Fuzzy Inference System for Region Segmentation Using the YCbCr Color Model
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Keyword Paper
Computer simulation Modelling of Single-ended Interconnects Using Surrogate Model and DoE Tech
Comsol 3-layered Capacitive Structure Design for MEMS Inertial Sensing
Connective tissue Influence of the Surrounding Tissues in the Radiation Pattern of Microcoaxial Antenna for the Treatment of Breast Tumors
Constrained optimization An Effective Mutation Operator to Deal with Multi-objective Constrained Problems: SPM
Controller design Nonlinear Convex Control of the Furuta Pendulum Based on its Descriptor Model
Copy number alterations. Improving Approximation of Jitter Probability in the Breakpoints of Simulated Copy Number Alterations
Cryptographic boolean functions Authenticated Encryption Based on Finite Automata Cryptosystems
Cryptography Color image encryption using chaotic systems synchronization
Cryptography with Finite Automata Authenticated Encryption Based on Finite Automata Cryptosystems
Czts Facile One Pot Synthesis of Single Phase Kesterite Cu2ZnSnS4 Nanocrystals
D
Dae Robust Control for a Class of Continuous Dynamical System Governed by Semi-Explicit DAE with Data -Sample Outputs
Dark conductivity Effect of Germane in gas phase on Electronic Properties of GeXSiY:H alloys deposited by RF Plasma Discharge
Data flight parameters Robust Controller for Aircraft Roll Control System using Data Flight Parameters
DC-AC power conversion Simulation of a Double-stage Micro-Inverter for Grid-Connected Photovoltaic Modules
Decision making A Local Exploration Tool for Linear Many Objective Optimization Problems
Deep-seated tumor Electric Field Distribution Obtained by Using the Finite Element Method and 3D Reconstruction of a Breast Carcinoma: Approach to the Electroporation of Deep-seated Tumors by Using Two Needle Electrodes
Degradation mechanisms Performance Parameters Degradation of Inverted Organic Solar Cells Exposed Under Solar and Artificial Irradiance, Using PTB7:PC70BM as Active Layer
Delay and sum beamforming method A LOFAR and Beamforming Implementation in a FPGA for a Digital Passive SONAR
Delay differential equation Monodromy Operator Approximation of Periodic Delay Differential Equations by Walsh Functions
Descriptor form Nonlinear Convex Control of the Furuta Pendulum Based on its Descriptor Model
Dew Biomimetic prototype to the physio-anatomy of the cactus Pachycereus Pecten-Aboriginum, for application to catchment system atmospheric dew water.
Diabetic foot Simulation of the temperature distribution on a diabetic foot model: a first approximation
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Keyword Paper
Diabetic retinopathy Development of a Detection System Microaneurysms in Color Fundus Images
Diffusion lengths Determination of photoelectric parameters of hydrogenated amorphous silicon by the photoelectromotive-force technique
Digital passive SONAR A LOFAR and Beamforming Implementation in a FPGA for a Digital Passive SONAR
Digital stream Fully Digital Write-in Scheme for Multi-Bit Memristive Storage
Distributed bragg reflectors High Contrast Distributed Bragg Reflectors Based on Si:H/SiC:H PECVD Multilayer Structure
Distributed filtering Improving Robustness of Distributed Filtering for Sensor Networks Using FIR Filtering Design of Blind Distributed UFIR Filter based on Average Consensus for WSNs
E
Ecg An Algorithm for QT Dispersion Analysis: Validation and Application in Chronic Kidney Disease
Eeg Effects of negative affective sounds on P300
Electrical distribution feeders Distribution Management System and Control Architecture through a FPGA device for Electrical Distribution Feeders
Electrochemotherapy Modeling of Electric Field and Joule Heating in Breast Tumor during Electroporation.
Electroluminescence Effect of the Active Layer Thickness on the Electrical and Electroluminescent Properties in Silicon Rich Oxide Based Light Emitting Capacitors
Electronic properties Effect of Germane in gas phase on Electronic Properties of GeXSiY:H alloys deposited by RF Plasma Discharge
Electroporation
Electric Field Distribution Obtained by Using the Finite Element Method and 3D Reconstruction of a Breast Carcinoma: Approach to the Electroporation of Deep-seated Tumors by Using Two Needle Electrodes Modeling of Electric Field and Joule Heating in Breast Tumor during Electroporation.
Empirical mode decomposition Myoelectric signal analysis using Hilbert-Huang Transform to identify muscle activation features
Encoding Fully Digital Write-in Scheme for Multi-Bit Memristive Storage
Evolutionary Multi-objective Algorithms An Effective Mutation Operator to Deal with Multi-objective Constrained Problems: SPM
Exoskeleton Stable PID Tracking Control with Application to a 7-DoF Exoskeleton Robot
F
Faskc Authenticated Encryption Based on Finite Automata Cryptosystems
Fat breast tissue Influence of the Surrounding Tissues in the Radiation Pattern of Microcoaxial
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Keyword Paper
Antenna for the Treatment of Breast Tumors
Feedforward neural network: Dynamic Feedforward Network Architecture Design Based on Information Entropy
FEM modeling Electric Field Distribution Obtained by Using the Finite Element Method and 3D Reconstruction of a Breast Carcinoma: Approach to the Electroporation of Deep-seated Tumors by Using Two Needle Electrodes
Fermi level Effect of Germane in gas phase on Electronic Properties of GeXSiY:H alloys deposited by RF Plasma Discharge
Fetal electrocardiogram Fetal ECG extraction based on Adaptive Filters and Wavelet Transform: Validation and Application in Fetal Heart Rate Variability Analysis
Fgmos 3-layered Capacitive Structure Design for MEMS Inertial Sensing
Finite element method Simulation of the temperature distribution on a diabetic foot model: a first approximation
Finite element method Modeling a Conical Applicator for High Intensity Focused Ultrasound with the Finite Element Method
Fixed-time stability Predefined-Time Tracking of a Class of Mechanical Systems
Floating-gate A Technique to Improve the Transconductance in Amplifiers
Floating-gate 3-layered Capacitive Structure Design for MEMS Inertial Sensing
Floating-gate mos transistor Assessment of the Possibility to Couple a Photo Sensor to a Floating-Gate MOS Transistor.
Floquet Stability Chart of Hill’s Equation by a Sturm-Liouville Approach
Focus Modeling a Conical Applicator for High Intensity Focused Ultrasound with the Finite Element Method
Fpga FPGA Implementation of Orthogonal Matching Pursuit Algorithm A LOFAR and Beamforming Implementation in a FPGA for a Digital Passive SONAR
FPGA devices Distribution Management System and Control Architecture through a FPGA device for Electrical Distribution Feeders
Fully digital Fully Digital Write-in Scheme for Multi-Bit Memristive Storage
Function approximation Monodromy Operator Approximation of Periodic Delay Differential Equations by Walsh Functions
Fuzzy logic Fuzzy Inference System for Region Segmentation Using the YCbCr Color Model
Fuzzy rules Fuzzy Inference System for Region Segmentation Using the YCbCr Color Model
Fuzzy set Fuzzy Inference System for Region Segmentation Using the YCbCr Color Model
G
Ga content Influence of Reaction Time on Cu(In,Ga)Se2 Particle Synthesis by Thermal Decomposition Method
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Keyword Paper
Gas sensing Particle Size Effect On Gas Sensing Properties Of ZnO Pellets
Geometrical approach Attractive Ellipsoids Based Robust Control Design of Switched Systems: a Geometrical Approach
Germanium Effect of Germane in gas phase on Electronic Properties of GeXSiY:H alloys deposited by RF Plasma Discharge
Glandular tissue Influence of the Surrounding Tissues in the Radiation Pattern of Microcoaxial Antenna for the Treatment of Breast Tumors
Graphene oxide Synthesis and characterization of magnetite-graphene oxide nanocomposite
Grid-connected PV systems simulation Simulation of a Double-stage Micro-Inverter for Grid-Connected Photovoltaic Modules
H
Hardware description languages Distribution Management System and Control Architecture through a FPGA device for Electrical Distribution Feeders
Heart rate variability Fetal ECG extraction based on Adaptive Filters and Wavelet Transform: Validation and Application in Fetal Heart Rate Variability Analysis
Hetnets 5GTRADIS: A Novel Traffic Distribution Mechanism for 5G Heterogeneous Networks
High intensity focused ultrasound Modeling a Conical Applicator for High Intensity Focused Ultrasound with the Finite Element Method
Hilbert-huang transform Myoelectric signal analysis using Hilbert-Huang Transform to identify muscle activation features
Hill equation Stability Chart of Hill’s Equation by a Sturm-Liouville Approach
Homotopic continuation method An Homotopy Path Planning Method with Automatic Fixed Value Assignation of Repulsion Parameter for Mobile Robotics
Homotopic path planning method An Homotopy Path Planning Method with Automatic Fixed Value Assignation of Repulsion Parameter for Mobile Robotics
Humanoid robots Active Disturbance Rejection Control for Humanoid Stable Walking
Hurwitz matrix Stable Active Vibration Control of Building Structure Subjected to Bidirectional Earthquake
I
IGZO tfts Modeling the Variation of Threshold Voltage, Mobility Factor and Saturation Coefficient in Amorphous Indium-Gallium-Zinc Oxide Thin Film Transistors
Image processing Development of a Detection System Microaneurysms in Color Fundus Images
Information entropy: Dynamic Feedforward Network Architecture Design Based on Information Entropy
Integrated circuits Advances in BTI modeling for the design of reliable ICs
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Keyword Paper
Interference High Contrast Distributed Bragg Reflectors Based on Si:H/SiC:H PECVD Multilayer Structure
Invariant ellipsoid method Robust Control for a Class of Continuous Dynamical System Governed by Semi-Explicit DAE with Data -Sample Outputs
Ito Study of optoelectronics properties of Indium Tin oxide films fabricated by Sputtering in Oxygen atmosphere.
J
Jitter distribution Improving Approximation of Jitter Probability in the Breakpoints of Simulated Copy Number Alterations
K
Kalman filter Improving Robustness of Distributed Filtering for Sensor Networks Using FIR Filtering Design of Blind Distributed UFIR Filter based on Average Consensus for WSNs
Kesterite Facile One Pot Synthesis of Single Phase Kesterite Cu2ZnSnS4 Nanocrystals
Knee prosthesis External knee prosthesis with four bar linkage mechanism
L
Labview Automatization and control of home-made micro injection pumps for a microfluidic system
Large scale pv systems Large scale photovoltaic structures with medium-frequency isolation
Layout planning Layout Planning for Academic Exhibits using Augmented Reality
Leak Detection and Isolation in Pipelines Bank of Leak Diagnosis Algorithms for Pressurized Pipelines
Life time Performance Parameters Degradation of Inverted Organic Solar Cells Exposed Under Solar and Artificial Irradiance, Using PTB7:PC70BM as Active Layer
Light emitting capacitors (lecs) Effect of the Active Layer Thickness on the Electrical and Electroluminescent Properties in Silicon Rich Oxide Based Light Emitting Capacitors
Linear matrix inequalities Nonlinear Convex Control of the Furuta Pendulum Based on its Descriptor Model
Linear problems A Local Exploration Tool for Linear Many Objective Optimization Problems
Linear systems Arbitrary References Output Tracking in Linear Systems
Linearity A Technique to Improve the Transconductance in Amplifiers
Linearization A Technique to Improve the Transconductance in Amplifiers
Lofar A LOFAR and Beamforming Implementation in a FPGA for a Digital Passive SONAR
Luenberguer observer Robust Control for a Class of Continuous Dynamical System Governed by Semi-Explicit DAE with Data -Sample Outputs
Luminance Fuzzy Inference System for Region Segmentation Using the YCbCr Color Model
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Keyword Paper
Lyapunov theorem Stable Active Vibration Control of Building Structure Subjected to Bidirectional Earthquake
M
Mac Authenticated Encryption Based on Finite Automata Cryptosystems
Magnetite Synthesis and characterization of magnetite-graphene oxide nanocomposite
Mammography Thesholding Methods Review for Microcalcifications Segmentation on Mammography Images in Obvious, Subtle, and Cluster Categories
Many objective optimization A Local Exploration Tool for Linear Many Objective Optimization Problems
Massive MIMO 5GTRADIS: A Novel Traffic Distribution Mechanism for 5G Heterogeneous Networks
Max entropy thresholding Thesholding Methods Review for the Location of the Optic Disc in Retinal Fundus Color Images
Mean Peak thresholding Thesholding Methods Review for the Location of the Optic Disc in Retinal Fundus Color Images
Mechanical milling Effect of milling speed on the precursor Zinc acetylacetonate destined to obtain ZnO thin films
Mechanical systems Attenuation Vibration by Parametric Excitation using the Meissner Equation
Memristor Fully Digital Write-in Scheme for Multi-Bit Memristive Storage
Mems A Set of Test Structures for the Development of a CMOS-MEMS Technology
MF-link Power Electronics Converter Large scale photovoltaic structures with medium-frequency isolation
Micro-channel plates Modeling Micro-Channel Plates as Astronomical Detectors of UV Radiation
Microaneurysm Development of a Detection System Microaneurysms in Color Fundus Images
Microaneurysm candidate Development of a Detection System Microaneurysms in Color Fundus Images
Microcalcification Thesholding Methods Review for Microcalcifications Segmentation on Mammography Images in Obvious, Subtle, and Cluster Categories
Microfluidics Automatization and control of home-made micro injection pumps for a microfluidic system
Microinyection Automatization and control of home-made micro injection pumps for a microfluidic system
Mobile collaboration tools Layout Planning for Academic Exhibits using Augmented Reality
Mobile robot An Homotopy Path Planning Method with Automatic Fixed Value Assignation of Repulsion Parameter for Mobile Robotics
Modeling Modeling of Electric Field and Joule Heating in Breast Tumor during Electroporation.
Modeling with temperature Modeling the Variation of Threshold Voltage, Mobility Factor and Saturation
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Keyword Paper
Coefficient in Amorphous Indium-Gallium-Zinc Oxide Thin Film Transistors
Monodromy operator Monodromy Operator Approximation of Periodic Delay Differential Equations by Walsh Functions
Morphological properties Effect of substrate position on structural, morphological, and optical properties of reactively sputtered ZnO thin films
Morphology Biomimetic prototype to the physio-anatomy of the cactus Pachycereus Pecten-Aboriginum, for application to catchment system atmospheric dew water.
Morphology Effect of Al2O3 on the morphological and gas sensing properties of SnO2 pellets
Mosfet Advances in BTI modeling for the design of reliable ICs
Multi-bit Fully Digital Write-in Scheme for Multi-Bit Memristive Storage
Multi-stimuli Effects of negative affective sounds on P300
Multichannel Myoelectric signal analysis using Hilbert-Huang Transform to identify muscle activation features
Mutation operator An Effective Mutation Operator to Deal with Multi-objective Constrained Problems: SPM
Myoelectric Myoelectric signal analysis using Hilbert-Huang Transform to identify muscle activation features
N
Nanocomposite Synthesis and characterization of magnetite-graphene oxide nanocomposite
Nanoparticle synthesis Nanoparticles of Zinc Oxide Obtained by Water in Oil Microemulsion System
Nanorods Vertically aligned ZnO nanorod arrays grown by chemical bath deposition on bare- and ITO-coated glass substrates
Non-steady-state p-EMF Determination of photoelectric parameters of hydrogenated amorphous silicon by the photoelectromotive-force technique
Nonlinear system Study of a Small Aircraft for Control Development and UAV task
Nonlinear system. Robust Observer-Based Adaptive Sliding Modes Control of Synchronous Motor
Nonlinear systems Nonlinear Convex Control of the Furuta Pendulum Based on its Descriptor Model
O
Ode Attractive Ellipsoids Based Robust Control Design of Switched Systems: a Geometrical Approach
Optic disc Thesholding Methods Review for the Location of the Optic Disc in Retinal Fundus Color Images
Optical Effect of substrate position on structural, morphological, and optical properties of reactively sputtered ZnO thin films
Optical properties High Contrast Distributed Bragg Reflectors Based on Si:H/SiC:H PECVD Multilayer
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Keyword Paper
Structure
Optimal trajectory tracking Real-time Optimal Tracking Control for a Three-phase Inverter
Optimization Modelling of Single-ended Interconnects Using Surrogate Model and DoE Tech
Orthogonal matching pursuit FPGA Implementation of Orthogonal Matching Pursuit Algorithm
Output tracking Arbitrary References Output Tracking in Linear Systems
Oxide semiconductors Modeling the Variation of Threshold Voltage, Mobility Factor and Saturation Coefficient in Amorphous Indium-Gallium-Zinc Oxide Thin Film Transistors
P
P300 Effects of negative affective sounds on P300
Parametric resonance Attenuation Vibration by Parametric Excitation using the Meissner Equation
Patient security A Comparison Between French and Mexican Technovigilance Process
Pd control Stable Active Vibration Control of Building Structure Subjected to Bidirectional Earthquake
Pellets Synthesis, Characterization and Photocatalytic activity of TiO2 Powders Effect of Al2O3 on the morphological and gas sensing properties of SnO2 pellets
Periodic Monodromy Operator Approximation of Periodic Delay Differential Equations by Walsh Functions
Periodic Linear systems Attenuation Vibration by Parametric Excitation using the Meissner Equation
Phisioanatomy Biomimetic prototype to the physio-anatomy of the cactus Pachycereus Pecten-Aboriginum, for application to catchment system atmospheric dew water.
Photo diode Assessment of the Possibility to Couple a Photo Sensor to a Floating-Gate MOS Transistor.
Photocatalysis Effect of milling speed on the precursor Zinc acetylacetonate destined to obtain ZnO thin films
Physicochemical analysis Chemical Bath Deposited Zn(S, OH, O) Films Near Room Temperature: Physicochemical Considerations
PID control Stable PID Tracking Control with Application to a 7-DoF Exoskeleton Robot
Planetary robots Intensity-Difference Based 3D Video Stabilization for Planetary Robots
Powders Synthesis, Characterization and Photocatalytic activity of TiO2 Powders
Power electronics Real-time Optimal Tracking Control for a Three-phase Inverter
Power quality Large scale photovoltaic structures with medium-frequency isolation
Precipitation Synthesis, Characterization and Photocatalytic activity of TiO2 Powders
Predefined-time stability Predefined-Time Tracking of a Class of Mechanical Systems
Process development A Set of Test Structures for the Development of a CMOS-MEMS Technology
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Keyword Paper
Programmable System-on-Chip (psoc) Pulse Generator for Ultrasonic PZT and PVDF Transducer Arrays Based on a Programmable System-on-Chip (PSoC)
PSPICE simulation Assessment of the Possibility to Couple a Photo Sensor to a Floating-Gate MOS Transistor.
PTB7:PC70BM active layer Performance Parameters Degradation of Inverted Organic Solar Cells Exposed Under Solar and Artificial Irradiance, Using PTB7:PC70BM as Active Layer
Pulse generator Pulse Generator for Ultrasonic PZT and PVDF Transducer Arrays Based on a Programmable System-on-Chip (PSoC)
Pvdf Pulse Generator for Ultrasonic PZT and PVDF Transducer Arrays Based on a Programmable System-on-Chip (PSoC)
Pzt Pulse Generator for Ultrasonic PZT and PVDF Transducer Arrays Based on a Programmable System-on-Chip (PSoC)
Q
QT dispersion An Algorithm for QT Dispersion Analysis: Validation and Application in Chronic Kidney Disease
R
Radiation pattern Influence of the Surrounding Tissues in the Radiation Pattern of Microcoaxial Antenna for the Treatment of Breast Tumors
Reaction time Facile One Pot Synthesis of Single Phase Kesterite Cu2ZnSnS4 Nanocrystals Influence of Reaction Time on Cu(In,Ga)Se2 Particle Synthesis by Thermal Decomposition Method
Read-out Fully Digital Write-in Scheme for Multi-Bit Memristive Storage
Real time implementation Real-time Optimal Tracking Control for a Three-phase Inverter
Real-time implementation Nonlinear Convex Control of the Furuta Pendulum Based on its Descriptor Model
Repulsion parameter An Homotopy Path Planning Method with Automatic Fixed Value Assignation of Repulsion Parameter for Mobile Robotics
Resistive switching UV Electroluminescence from ITO/SRO/p-Si and ITO/SRN/SRO/p-Si Structures
Retina Development of a Detection System Microaneurysms in Color Fundus Images
Rf sputtering Effect of substrate position on structural, morphological, and optical properties of reactively sputtered ZnO thin films
Robot Stable PID Tracking Control with Application to a 7-DoF Exoskeleton Robot
Robot vision Intensity-Difference Based 3D Video Stabilization for Planetary Robots
Robust control
Robust Control for a Class of Continuous Dynamical System Governed by Semi-Explicit DAE with Data -Sample Outputs Attractive Ellipsoids Based Robust Control Design of Switched Systems: a Geometrical Approach
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Keyword Paper
Robust controller Robust Controller for Aircraft Roll Control System using Data Flight Parameters
Robust nonlinear observer. Robust Observer-Based Adaptive Sliding Modes Control of Synchronous Motor
Robustness Improving Robustness of Distributed Filtering for Sensor Networks Using FIR Filtering
Roll model Robust Controller for Aircraft Roll Control System using Data Flight Parameters
Room temperature Chemical Bath Deposited Zn(S, OH, O) Films Near Room Temperature: Physicochemical Considerations
S
Sample data output Robust Control for a Class of Continuous Dynamical System Governed by Semi-Explicit DAE with Data -Sample Outputs
Secondary emission yield Modeling Micro-Channel Plates as Astronomical Detectors of UV Radiation
Secure communication Color image encryption using chaotic systems synchronization
Segmentation Fuzzy Inference System for Region Segmentation Using the YCbCr Color Model
Self-organize Dynamic Feedforward Network Architecture Design Based on Information Entropy
Semiconductor devices A Set of Test Structures for the Development of a CMOS-MEMS Technology
Semiconductor II-VI Chemical Bath Deposited Zn(S, OH, O) Films Near Room Temperature: Physicochemical Considerations
Sensitivity Effect of Al2O3 on the morphological and gas sensing properties of SnO2 pellets
Si:H High Contrast Distributed Bragg Reflectors Based on Si:H/SiC:H PECVD Multilayer Structure
Sic:H High Contrast Distributed Bragg Reflectors Based on Si:H/SiC:H PECVD Multilayer Structure
Signal integrity Modelling of Single-ended Interconnects Using Surrogate Model and DoE Tech
Silicon Effect of Germane in gas phase on Electronic Properties of GeXSiY:H alloys deposited by RF Plasma Discharge
Silicon nanoparticles Effect of the Active Layer Thickness on the Electrical and Electroluminescent Properties in Silicon Rich Oxide Based Light Emitting Capacitors
Silicon-rich nitride UV Electroluminescence from ITO/SRO/p-Si and ITO/SRN/SRO/p-Si Structures
Silicon-rich oxide UV Electroluminescence from ITO/SRO/p-Si and ITO/SRN/SRO/p-Si Structures
Simulation Simulation of the temperature distribution on a diabetic foot model: a first approximation
Single phase Facile One Pot Synthesis of Single Phase Kesterite Cu2ZnSnS4 Nanocrystals
Small cells 5GTRADIS: A Novel Traffic Distribution Mechanism for 5G Heterogeneous Networks
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Keyword Paper
Solar irradiance Performance Parameters Degradation of Inverted Organic Solar Cells Exposed Under Solar and Artificial Irradiance, Using PTB7:PC70BM as Active Layer
Sparse representation FPGA Implementation of Orthogonal Matching Pursuit Algorithm
Spectrum sensing Superimposed Training-based Detector for Spectrum Sensing in Cognitive Radio
Spherical algorithm An Homotopy Path Planning Method with Automatic Fixed Value Assignation of Repulsion Parameter for Mobile Robotics
Sputtering Study of optoelectronics properties of Indium Tin oxide films fabricated by Sputtering in Oxygen atmosphere.
Stable walking Active Disturbance Rejection Control for Humanoid Stable Walking
Standards A Comparison Between French and Mexican Technovigilance Process
State Estimation of Nonlinear-System Bank of Leak Diagnosis Algorithms for Pressurized Pipelines
State-feedback control Arbitrary References Output Tracking in Linear Systems
Structural Effect of substrate position on structural, morphological, and optical properties of reactively sputtered ZnO thin films
Sturm-lioville Stability Chart of Hill’s Equation by a Sturm-Liouville Approach
Substrate Vertically aligned ZnO nanorod arrays grown by chemical bath deposition on bare- and ITO-coated glass substrates
Substrate position Effect of substrate position on structural, morphological, and optical properties of reactively sputtered ZnO thin films
Superimposed training Superimposed Training-based Detector for Spectrum Sensing in Cognitive Radio
Surrogate models Modelling of Single-ended Interconnects Using Surrogate Model and DoE Tech
Surrounding tissues Influence of the Surrounding Tissues in the Radiation Pattern of Microcoaxial Antenna for the Treatment of Breast Tumors
Switched systems Attractive Ellipsoids Based Robust Control Design of Switched Systems: a Geometrical Approach
Synchronization Color image encryption using chaotic systems synchronization
System linearisation Study of a Small Aircraft for Control Development and UAV task
T
Taguchi method Particle Size Effect On Gas Sensing Properties Of ZnO Pellets
Tco Study of optoelectronics properties of Indium Tin oxide films fabricated by Sputtering in Oxygen atmosphere.
Technovigilance A Comparison Between French and Mexican Technovigilance Process
Test chip A Set of Test Structures for the Development of a CMOS-MEMS Technology
Test structures A Set of Test Structures for the Development of a CMOS-MEMS Technology
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Keyword Paper
Thermal decomposition Influence of Reaction Time on Cu(In,Ga)Se2 Particle Synthesis by Thermal Decomposition Method
Thin film transistors Modeling the Variation of Threshold Voltage, Mobility Factor and Saturation Coefficient in Amorphous Indium-Gallium-Zinc Oxide Thin Film Transistors
Thin films Effect of substrate position on structural, morphological, and optical properties of reactively sputtered ZnO thin films
Thresholding Thesholding Methods Review for Microcalcifications Segmentation on Mammography Images in Obvious, Subtle, and Cluster Categories
Tin oxide Effect of Al2O3 on the morphological and gas sensing properties of SnO2 pellets
Tio2 Synthesis, Characterization and Photocatalytic activity of TiO2 Powders
Torsion Stable Active Vibration Control of Building Structure Subjected to Bidirectional Earthquake
Torsional actuator Stable Active Vibration Control of Building Structure Subjected to Bidirectional Earthquake
Tracking of Mechanical Systems Predefined-Time Tracking of a Class of Mechanical Systems
Traffic distribution 5GTRADIS: A Novel Traffic Distribution Mechanism for 5G Heterogeneous Networks
Transfemoral amputation External knee prosthesis with four bar linkage mechanism
Transmission lines Modelling of Single-ended Interconnects Using Surrogate Model and DoE Tech
Triangle thresholding method Thesholding Methods Review for the Location of the Optic Disc in Retinal Fundus Color Images
Tumor Influence of the Surrounding Tissues in the Radiation Pattern of Microcoaxial Antenna for the Treatment of Breast Tumors
U
Ulcers Simulation of the temperature distribution on a diabetic foot model: a first approximation
Ultrasonic transducer arrays Pulse Generator for Ultrasonic PZT and PVDF Transducer Arrays Based on a Programmable System-on-Chip (PSoC)
Unbiased FIR filter Improving Robustness of Distributed Filtering for Sensor Networks Using FIR Filtering Design of Blind Distributed UFIR Filter based on Average Consensus for WSNs
Uncertainties Robust Controller for Aircraft Roll Control System using Data Flight Parameters
UV electroluminescence UV Electroluminescence from ITO/SRO/p-Si and ITO/SRN/SRO/p-Si Structures
V
Vertical radiation pattern On the Importance of the Vertical Radiation Pattern on Simulations of WSNs
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)
Keyword Paper
Very-low voltaje A Technique to Improve the Transconductance in Amplifiers
Vhdl Distribution Management System and Control Architecture through a FPGA device for Electrical Distribution Feeders
Vibration control Stable Active Vibration Control of Building Structure Subjected to Bidirectional Earthquake
W
W/O microemulsion Nanoparticles of Zinc Oxide Obtained by Water in Oil Microemulsion System
Walsh functions Monodromy Operator Approximation of Periodic Delay Differential Equations by Walsh Functions
Wavelet analysis Fetal ECG extraction based on Adaptive Filters and Wavelet Transform: Validation and Application in Fetal Heart Rate Variability Analysis
Wavelet transform An Algorithm for QT Dispersion Analysis: Validation and Application in Chronic Kidney Disease
Wireless communications networks On the Importance of the Vertical Radiation Pattern on Simulations of WSNs
Wireless sensor network Improving Robustness of Distributed Filtering for Sensor Networks Using FIR Filtering Design of Blind Distributed UFIR Filter based on Average Consensus for WSNs
Wireless sensor networks (wsns) On the Importance of the Vertical Radiation Pattern on Simulations of WSNs
Write-in Fully Digital Write-in Scheme for Multi-Bit Memristive Storage
Z
Zinc oxide Nanoparticles of Zinc Oxide Obtained by Water in Oil Microemulsion System
Zinc oxide Effect of milling speed on the precursor Zinc acetylacetonate destined to obtain ZnO thin films
Zinc sulfide Chemical Bath Deposited Zn(S, OH, O) Films Near Room Temperature: Physicochemical Considerations
Zno
Vertically aligned ZnO nanorod arrays grown by chemical bath deposition on bare- and ITO-coated glass substrates Effect of substrate position on structural, morphological, and optical properties of reactively sputtered ZnO thin films
Zno nanopowders Particle Size Effect On Gas Sensing Properties Of ZnO Pellets
Zno pellets Particle Size Effect On Gas Sensing Properties Of ZnO Pellets