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CURRICULUM VITAE
SURNAME AND NAME FINOCHIETTO, Jorge Manuel
Home Address
Phone number
Fax number -
E-mail address
Nationality Argentinian - Italian
Birth date
Academic Position (if the candidate holds a position in a University)
Qualification/Title Full Professor
University Universidad Nacional de Cordoba
Department Computer Engineering
Academic Field Digital Communications
Academic Discipline Communication Networks
Working experience (please use the following table in order to briefly describe the working positions
covered by the candidate)
Dates ( from .. to..) 2013 - Today
Name and address of the Employer (Public or/and
private institution/body) Universidad Nacional de Córdoba
Av. Velez Sarsfield 1611 – Córdoba (Argentina)
Position held (for positions in Universities, the
candidate should indicate the
Faculty/College/School and the Department)
Full Professor
Computer Engineering Department
Main activities/responsibilities Undergraduate & graduate teaching.
Research projects supervision.
Undergraduate & graduate (PhD / Postdoc)
student supervision.
Technology transfer towards industry /
organizations.
Board member of undergraduate & graduate
engineering programs.
Dates ( from .. to..) 2011 - Today
Name and address of the Employer (Public or/and
private institution/body) Consejo Nacional de Investigaciones Científicas y
Técnicas (National Scientific and Technicak
Research Council)
Av. Velez Sarsfield 1611 – Córdoba (Argentina)
Position held (for positions in Universities, the
candidate should indicate the
Faculty/College/School and the Department)
Senior Researcher
Information and Communication Technologies
Main activities/responsibilities Research projects supervision.
Undergraduate & graduate (PhD / Postdoc)
student supervision.
Technology transfer towards industry /
organizations.
Dates ( from .. to..) 2007 - 2013
Name and address of the Employer (Public or/and
private institution/body) Universidad Nacional de Córdoba
Av. Velez Sarsfield 1611 – Córdoba (Argentina)
Position held (for positions in Universities, the
candidate should indicate the
Faculty/College/School and the Department)
Associate Professor
Computer Engineering Department
Main activities/responsibilities Undergraduate & graduate teaching.
Research projects supervision.
Undergraduate & graduate (PhD / Postdoc)
student supervision.
Technology transfer towards industry /
organizations.
Board member of undergraduate & graduate
engineering programs.
Dates ( from .. to..) 2008 - 2011
Name and address of the Employer (Public or/and
private institution/body) Consejo Nacional de Investigaciones Científicas y
Técnicas (National Scientific and Technicak
Research Council)
Av. Velez Sarsfield 1611 – Córdoba (Argentina)
Position held (for positions in Universities, the
candidate should indicate the
Faculty/College/School and the Department)
Assistant Researcher
Information and Communication Technologies
Main activities/responsibilities Research projects supervision.
Undergraduate & graduate (PhD / Postdoc)
student supervision.
Technology transfer towards industry /
organizations.
Dates ( from .. to..) 2005 - 2007
Name and address of the Employer (Public or/and
private institution/body) Politecnico di Torino
Corso Duca degli Abruzzi, 24
Position held (for positions in Universities, the
candidate should indicate the
Faculty/College/School and the Department)
Postdoc Studente
Electronic Department
Main activities/responsibilities Undergraduate & graduate teaching.
Research projects participation.
Undergraduate & graduate (PhD / Postdoc)
student tutoring.
Education and Training (please use the following table to describe Degrees awarded, by only
indicating the information concerning Bachelor’s Degree, Master of Science’s Degree or/and PhD)
Date April 22, 2005
Institution which issued the degree Politecnico di Torino
Type of Degree awarded (only Bachelor’s Degree,
Master of Science’s Degree, PhD) PhD
Date December 20, 2000
Institution which issued the degree Universidad Nacional de Mar del Plata
Type of Degree awarded (only Bachelor’s Degree,
Master of Science’s Degree, PhD) Master of Science (5-year Engineering Degree)
INTERNATIONAL REFEREES INDICATED BY THE CANDIDATE
Each candidate is required to indicate the names of at least three and not more than five international
experts/referees: they must not have any publications in common with the candidate and must possess a high
scientific qualification and international reputation, that can be objectively verified by the Commission.
Name Institution of origin Address e-mail address (compulsory)
Scott BURLEIGH Jet Propulsion
Laboratory (JPL)
Gustavo SUTTER Universidad Autónoma
de Madrid (UAM)
Spain [email protected]
Dario ROSSI Telecom ParisTech France [email protected]
Luciano AHUMADA Universidad Diego
Portales
Chile [email protected]
EVALUATION FIELDS
1. Scientific Activity
1.1 The three most important outcomes/results of the research activity of the candidate accompanied
by the tangible and verifiable evidence that the presented results:
are original, significant and due to the determining, prevailing and clearly recognizable
contribution of the candidate;
have been widely spread and have obtained outstanding recognitions by the international
scientific community;
qualify the candidate as a distinguished international expert in his/her own field.
I consider that most important outcomes of my research activity have been those contributions
that have been recognized the scientific community in conferences and journals, and have also
captured the interest of industries and/or organizations; thus, demonstrating that research can
help to solve todays engineering problems. Besides, these contributions typically require to build
and lead teams, as lot of effort and time is needed to obtain results that can be mature enough to
be applied to real problems. Next, I describe the three most important outcomes of my activity as
a researcher, where I have led the investigation of solutions to real-world engineering problems
in the field of communication networks.
1) Contributions to high-speed protocol processing for optical networks
Since 2008 part of my research activity has focused on the definition, modelling and design of
protocol processing systems for optical communication networks. Early results for rates at
10Gb/s were published in [O1-1, O1-2], which considered protocol processing architectures for
packet and circuit switched networks. These preliminary results captured the attention and
confidence of ClariPhy Communications (www.clariphy.com), a world leader ASIC
manufacturer company for optical communications, and started a technology partnership
agreement with a small research group under my supervision that it is still ongoing today.
Through this partnership, I have particularly contributed on the design and modelling of
protocol processing architectures for optical transport networks at 40Gb/s (2010), 100Gb/s
(2012), 200G (2013), 400G (2014) and 500G (2015). Even if these contributions are mostly
confidential, they are mainly based on US Patent US9071364 “Coherent optical transceiver
with programmable application modes” (filled October 18, 2011, assigned June 30, 2015),
where I am one of the main inventors (out of 5). Besides, a few joint publications have been
made related to the overall system (i.e., commercial ASIC) where proposed protocol processing
systems have been integrated together with DSP, FEC and ADC/DAC blocks [O1-3, O1-4]. This
tangible outcome has enabled a strong collaboration with ClariPhy, becoming myself their main
expert in protocols for optical communication and leading agreements and cooperation in this
field with their international customers such as ALU, Coriant, ZTE, Huawei, FiberHome,
Fujitsu and Google, among others. This outcome consolidates more than 10 years of research in
optical networks, which were initiated during my PhD at Politecnico di Torino under
supervision of Fabio Neri.
[O1-1] J. M. Finochietto, R. Arenas, U. Morales, R. Lopez, “Framer Design, Verification and
Prototyping for G.709 Optical Transport Networks,” VII Southern Conference on
Programmable Logic, Cordoba, Argentina, 13 - 15 April 2011
[O1-2] R. Arenas, J. M. Finochietto, L. Rocha, “Design and Implementation of Packet
Switching Capabilities on 10GbE MAC Core,” VI Southern Conference on Programmable
Logic, Ipojuca, Brazil, 24 - 26 March 2010
[O1-3] M. Hueda, H. Carrer, J. Zachan, V. Gutnik, M. Del Barco, R. Lopez, G. Hatcher, J. M.
Finochietto, M. Yeo, A. Chartrand, N. Swenson, P. Voois, O. Agazzi, “A 40nm CMOS Single-
Chip 50Gb/s DP-QPSK/BPSK Transceiver with Electronic Dispersion Compensation for
Coherent Optical Channels,” IEEE International Solid- State Circuits Conference (ISSCC), San
Francisco, USA, 20 - 24 February 2012
[O1-4] D. Crivelli, M. Hueda, H. Carrer, M. del Barco, R. Lopez, P. Gianni, J. M. Finochietto,
N. Swenson, P. Voois, O. Agazzi, “Architecture of a Single-Chip 50 Gb/s DP-QPSK/BPSK
Transceiver with Electronic Dispersion Compensation for Coherent Optical Channels,” IEEE
Transactions on Circuits and Systems, Vol. PP, No. 99, pp. 1-14, October 2013 (IF: 2.403)
2) Contributions to contact plan design for disruption-predictable tolerant networks
Since 2011 part of my research activity has also considered the design and modelling of wireless
networks with predictable connections, which fall in the area of Disruption Tolerant Networks
(DTN). This research was initiated by a requirement from the Argentinian space agency CONAE
(www.conae.gov.ar) in the framework of its long-term program for building a fractioned
satellite platform made up of small (mid-weight satellites) that can cooperate by means of inter-
satellite communication links. In this area, I have led the investigation on the design of contact
plans (i.e., assignment of communication opportunities to satellites) in scenarios with high
predictability, which is mainly the case for LEO satellite networks. CONAE, through one of its
local contractors (Servicios Tecnologicos Integrados, www.sti-tech.com.ar)), setup in 2012 a
technology partnership agreement (still ongoing) to develop simulation models and tools to
investigate wireless networks for fractionated spacecraft. Results from this activity have been
transferred to CONAE to design a new satellite platform with capabilities to collaborate and
share resources by means of communication contact plans. It is expected that first generation of
these satellites will be in orbit before 2020. The problem of contact plan design in DTN was first
introduced in [O2-1] and captured the attention of the academy and also the Jet Propulsion
Laboratory (JPL) and The Johns Hopkins University Applied Physics Laboratory which has
enabled specific collaborations among the research groups. More in-depth results were
published later in [O2-2, O2-3], while an analysis of the problem and proposed solution as well
as open challenges were published in IEEE Communications Magazine [O3-4] (short version)
and Wiley Book Chapter [O3-5] (long version). My co-authors of all these publications are Phd
students under my supervision, which have worked closely with me in the design of models and
novel algorithms for the computation of contact plans. Outcomes from this research activity has
positioned myself as an expert in communication networks for predictable DTN, such as LEO
constellations. I have participated as a formal project reviewer for CONAE based on this
expertise. Recently, I have been appointed to also lead a research activity in this filed but
applied to unmanned aerial vehicles (UAV) for the Defense Ministry. Besides, this activity also
resulted in a commercial software tool that was designed and implemented by a team of 6
professionals (on average) under my supervision for 2 years. Today, a reduced group of 2
professionals still work on updates and enhancements of the tool. The scope of this tool is
currently being updated to also consider communications based on GEO satellites, and
contribute on the design and operation of the Argentine Geostationary Communication Satellite
System owned by ARSAT company (www.arsat.com.ar), which is currently made up of 2
satellites that were developed and manufactured in Argentina, but its expansion is under study.
[O2-1] Juan Fraire, Pablo Madoery, Jorge M. Finochietto, “On the Design of Fair Contact
Plans in Predictable Delay-Tolerant Networks,” IEEE International Conference on Wireless for
Space and Extreme Environments, Baltimore, USA, 7 - 9 November 2013
[O2-2] J. Fraire, P. Madoery, J. M. Finochietto, “On the Design and Analysis of Fair Contact
Plans in Predictable Delay-Tolerant Networks,” IEEE Sensors Journal, vol. 14, no. 11, pp.
3874-3882, November 2014
[O2-3] J. Fraire, J. M. Finochietto, “Routing-aware fair contact plan design for predictable
delay tolerant networks,” Elsevier Ad Hoc Networks, Vol. 25, Part B, pp. 303-313, February
2015
[O2-4] J. Fraire, J. M. Finochietto, “Design Challenges in Contact Plans for Disruption-
Tolerant Satellite Networks,” IEEE Communications Magazine, vol. 53, no. 5, pp. 163–169,
May 2015
[O2-5] J. Fraire, P. Madoery, J. M. Finochietto. “Contact Plan Design for Predictable
Disruption Tolerant Space Sensor Networks”, In: Wireless Sensor Systems for Extreme
Environments: Space, Underwater, Underground and Industrial, Chapter 15, Editors: H.
Rashvand & A. Abedi, Wiley, In Press (to be published in 2016).
3) Contributions to in-network processing protocols for wireless sensor networks
Since 2009 my research on wireless networks has focused on sensor networks. In particular, to
in-network processing protocols that can both fetch distributed data and compute statistical
metrics to reduce energy consumption on network nodes. Different protocols based on
computational intelligence strategies were proposed and its results published [O3-1, O3-2, O3-
3, O3-4]. Several undergraduate students and one Phd student under my supervision have
collaborated not also in the research on this problem but also on implementing proof-of-concept
of the proposals in real network nodes. This resulted in both broad knowhow on implementing
wireless sensor networks and highly qualified human resources, which enabled the creation of a
start-up company named INSUS (www.insus.com.ar). Even if I do have a formal engagement to
the company, I have supervised and assisted the technical team (all of which have been my
students) and helped them in the design of their products. The company has been awarded
several national recognitions as a start-up, and has also received external funding. Today, it
provides WSN services for agriculture and for early warning systems. Several results from the
research activity have been used to improve and enhance their products.
[O3-1] J. M. Finochietto, J. Ignacio Brasca, “Contention-limited Access Strategies in IEEE
802.15.4 Beacon-Enabled Networks,” IEEE Globecom, Miami, FL, USA , 6 - 10 December 2010
[O3-2] Guillermo Riva, Jorge M. Finochietto, “A Parallel and Adaptative Query Routing
Scheme for Wireless Sensor Networks,” IEEE International Conference on Communications
(ICC), Ottawa, Canada, 10 - 15 June 2012
[O3-3] G. Riva, J. M. Finochietto, “Pheromone-based In-Network Processing for Wireless
Sensor Network Monitoring Systems,” Journal of Network Protocols and Algorithms, vol. 4, iss.
4, pp. 156-173, November 2012
[O3-4] Guillermo G. Riva, Jorge M. Finochietto, “In-Network Filtering Schemes for Type-
Threshold Function Computation in Wireless Sensor Networks,” International Journal of
Distributed Sensor Networks, vol. 2014, 20 pp. 2014
1.2 List of the submitted publications (with a maximum number of 20) in addition to those listed at
point 1.1. For each publication and/or set of publications, the candidate is required to briefly
describe his/her contribution, their scientific/technical significance and individual importance,
the overall impact of the results in the international scientific community.
1) Contributions to Optical Networks
Most of my contributions have been in the field of optical networks where new WDM
architectures and protocols are required to accommodate the increasing volume of data traffic.
One particular architecture [ON9] has been widely investigated, where I have proposed several
enhancements in terms of reconfigurability [ON8], scalability [ON7] and resilience [ON6].
Besides other WDM network architectures have been analyzed and compared [ON5, ON3] in a
joint work with colleagues from different universities. Among the application cases of WDM
architectures, its use as an optical switching fabric was proposed and investigated [ON4], being
my contribution a set of different alternatives architectures optimized for reducing power
attenuation. Finally, several proposals for controlling access to WDM networks have been
investigated [ON2, ON1], being my specific contributions in the design and modelling of the
access protocols. In general, my contributions to optical networks have been recognized and
cited several times; and had demonstrated that there exist design trade-offs to scale optical
network’s bandwidth given available electronic and photonic resources.
[ON1] A. Bianco, D. Cuda, J. M. Finochietto, “Short-term fairness in slotted WDM rings,”
Computer Networks, vol. 83, pp. 235-248, June 2015
[ON2] A. Bianco, D. Cuda, J. M. Finochietto, “Multi-Metaring Fairness Control in a WDM
Folded-bus Architecture,” Elsevier Computer Networks, Vol. 62, pp. 152-161, April 2014
[ON3] A. Leiva, J. M. Finochietto, V. Lopez, B. Huiszoon, A. Beghelli, J. Aracil, “Comparison
in Power Consumption of Static and Dynamic WDM Networks,” Elsevier Optical Switching and
Networking, pp. 149-161, June 2011
[ON4] R. Gaudino, G. Castillo, F. Neri, J. M. Finochietto, “Can Simple Optical Switching
Fabrics Scale to Terabit per Second Switch Capacities?,” IEEE/OSA Journal of Optical
Communications and Networking, Vol. 1, No. 3, pp. 56-69, August 2009
[ON5] J. M. Finochietto, F. Neri, K. Wajda, R. Watza, J. Domzal, M. Nord and E. Zouganeli,
“Towards Optical Packet Switched MANs: Design Issues and Tradeoffs,” Elsevier Journal of
Optical Switching and Networking, Vol. 5, Iss. 4, pp. 253-267, October 2008
[ON6] A. Antonino, A. Bianco, A. Bianciotto, V. De Feo, J. M. Finochietto, R. Gaudino, F.
Neri, “WONDER: A resilient WDM packet network for metro applications,” Elsevier Journal of
Optical Switching and Networking, Vol. 5, Iss. 1, pp. 19-28, March 2008
[ON7] J. M. Finochietto, J. Aracil, A. Ferreiro, J. P. Fernandez Palacios, O. Gonzalez de Dios,
“Migration Strategies Toward All Optical Metropolitan Access Rings,” IEEE/OSA Journal of
Lightwave Technology, Vol. 25, No. 8, August 2007
[ON8] A. Bianco, J. M. Finochietto, G. Giarratana, F. Neri, C. Piglione, “Measurement Based
Reconfiguration in Optical Ring Metro Networks,” IEEE/OSA Journal of Lightwave
Technology, Vol. 23, No. 10, pp. 3156-3166, October 2005
[ON9] A. Carena, V. De Feo, J. M. Finochietto, R. Gaudino, F. Neri, C. Piglione, P. Poggiolini,
“RingO: An Experimental WDM Optical Packet Network for Metro Applications,” IEEE
Journal on Selected Areas in Communications, Vol. 22, No. 8, pp. 1561-1571, October 2004
2) Contributions to High Performance Packet Processing
Mostly derived from research in high-speed optical networks, I have made several contributions
to packet processing architectures, from software based to hardware ones. Early contributions
focused in scaling packet processing architectures using software and commercial off-the-shelf
(COTS) components [PP8, PP7, PP6, PP5]. These papers have been cited several times both in
academic publications as well as in patents. My specific contributions have focused in
evaluating trade-offs in actual COTS systems, identifying potential bottlenecks and proposing
solutions that enable scaling packet processing. Since this scalability can be also improved by
integrated programmable hardware based components (i.e., FPGA) more recent work has
investigated different digital architectures than can scale to data flows of 100Gb/s [PP4]. In
particular, the problem of packet classification has been identified as one bottleneck and several
scalable architectures where proposed and evaluated [PP3, PP2, PP1]. My contributions have
been mostly on the design of memory-based architectures that help to increase the classification
rate. These contributions where achieved in cooperation with a PhD student under my
supervision.
[PP1] Carlos A. Zerbini, Jorge M. Finochietto, “Optimization of Lookup Schemes for Flow-
Based Packet Classification on FPGAs,” International Journal of Reconfigurable Computing,
vol. 2015, pp. 31, 2015
[PP2] Carlos Zerbini, Jorge M. Finochietto, "Multi-match packet classification on memory-
logic trade-off FPGA-based architecture," High Performance Switching and Routing (HPSR),
2013 IEEE 14th International Conference on , vol., no., pp.121,127, 8-11 July 2013
[PP3] Carlos Zerbini, Jorge M. Finochietto, "Performance evaluation of packet classification
on FPGA-based TCAM emulation architectures," Global Communications Conference
(GLOBECOM), 2012 IEEE, vol., no., pp.2766,2771, 3-7 Dec. 2012
[PP4] Jorge M. Finochietto, Carlos Zerbini, Santiago Paz, “Hardware Primitives for Packet
Flow Processing Architectures,” VII Southern Conference on Programmable Logic, Cordoba,
Argentina, 13 - 15 April 2011
[PP5] A. Bianco, J. M. Finochietto, M. Mellia, F. Neri, G. Galante, “Multistage Switching
Architectures for Software Routers,” IEEE Network “Advances in Network Systems”, ISSN:
0890-8044, July 2007
[PP6] A. Bianco, R. Birke, J. M. Finochietto, L. Giraudo, F. Marenco, M. Mellia, A. Khan, D.
Man- junath, “Control and Management Plane in a Multistage Software Router Architecture,”
IEEE Workshop on High Performance Switching and Routing (HPSR), Shangai, China, 15 - 17
May 2008
[PP7] A. Bianco, J.M. Finochietto, G. Gavilanes, F. Neri, “A Control and Management Plane
for Large Packet Switches,” IEEE IT-NEWS’08 (QoS-IP), 4th International Telecommunication
NEtworking WorkShop on QoS in Multiservice IP Networks, Venice, Italy, 13 - 15 February
2008
[PP8] A. Bianco, J. M. Finochietto, G. Galante, D. Mazzucchi, M. Mellia, F. Neri, “Scalable
Layer-2/Layer-3 Multistage Switching Architectures for Software Routers,” IEEE Globecom,
San Francisco, USA , 27 November - 1 December 2006
3) Contributions to Congestion Mitigation in Disruption Tolerant Networks
While investigating the problem of contact plan design in DTN, it became evident that
congestion management in this networks is a challenging problem, being even harder to mitigate
that in traditional networks. However, disruption predictability can be used to mitigate or even
avoid congestion in some scenarios. For the first time results on this problem were published in
[CM3], which captured lot of attention and triggered other investigations in collaboration with
other researchers [CM2, CM1]. My contributions have been in the proposal of techniques that
aim at avoiding congestion by means of bandwidth reservations. I expect lot of attention in this
field in the near future as solutions are still needed. Some cooperation with the JPL is scheduled
to take place during 2016.
[CM1] J. Fraire, P. Madoery, J. M. Finochietto, G. Leguizamon, "Preliminary Results of an
Evolutionary Approach Towards Contact Plan Design for Satellite DTNs", 2015 IEEE
International Conference on Wireless for Space and Extreme Environments (WiSEE), Orlando
Florida, Dec. 2015
[CM2] J. Fraire, P. Madoery, J. M. Finochietto, I. E. Birrane, “Congestion modeling and
management techniques for predictable disruption tolerant networks,” IEEE Conference on
Local Computer Networks, Clearwater Beach, USA, October. 2015
[CM3] Juan Fraire, Pablo Madoery, Jorge M. Finochietto, “Leveraging routing performance
and congestion avoidance in predictable delay tolerant networks,” IEEE International
Conference on Wireless for Space and Extreme Environments, Noordwijk, The Netherlands, 30-
31 October 2014
1.3 Complete list of all the significant publications of the candidate, including those listed at points
1.1 and 1.2 (to be attached to the end of the Curriculum).
See complete list at the end of this document.
2. Coordination of research and technology transfer groups and projects.
Coordination and management of research groups, possibly with international relationships and
collaborations; explicit mention of the number and of the type of PhD and Post-Doc students, of
whom the candidate has been the academic supervisor;
1) Coordinator of research area (Communication Networks) within the Digital Communications
Research Lab, which is the largest area in this lab. Currently, I manage a group of 2 Post-Docs,
2 PhD students, and 3 Professionals (for technology transfer only). Typically, 2-3 undergraduate
students per year join the group to complete their engineering degree’s thesis under my
supervision.
a) Academic supervisor of 22 MScEng students (2008-today) in the fields of Computer
Engineering, Electronic Engineering or Telecommunication Engineering.
b) Academic supervisor of 4 PhD students (2 already completed, 2 still ongoing) in Engineering
Sciences
c) Academic supervisor of 2 Post-Doc students (ongoing)
Scientific responsibility (Principal Investigator) of competitive National and International
research projects, awarded through a peer-review process.
Since 2008, I have been responsible (Principal Investigator) of 8 projects: five (5) 2-year
projects awarded by national universities, one (1) 3-year project awarded by the regional
research agency, one (1) 3-year project awarded by the national research agency (ANPCyT),
and one (1) 3-year project funded by the national research council (CONICET). Besides, I have
been in the main research group of 3 projects awarded by the national research agency.
Scientific responsibility of National and International research projects, ruled through
partnership agreements with companies and/or public private bodies, which are leaders in their
own sector.
More than USD 1M income in technology transfer projects under my supervision (2011-2015)
through partnerships with the following companies and/or bodies:
a) ClariPhy Argentina, subsidiary of ClariPhy Communications (US), a fabless company leader
in the design and manufacturing of integrated circuits for optical communications. Since 2010, I
have lead several agreements for designing and specifying protocols for optical data transport.
Several ASIC generations have been part of these agreements, from earlier (2010) 40Gb/s
devices to 100Gb/s (2012), 200Gb/s (2013), 400Gb/s (2014) and 500Gb/s (2015).
b) CONAE (National Space Agency), through its local contractor Servicios Tecnológicos
Integrados, in the field of modelling and designing satellite communications for fractioatned
spacecrafts and/or constellations. Since 2012, this project has developed and successfully
transferred results as well as different versions of a simulation tool, currently used to design
advance satellite links and contact plans in dynamic satellite constellations.
c) National network operators such as ARSAT and Claro (America Movil), to whom advance
optical network models for estimating availability and for network dimensioning have been
developed and integrated in software packages (FOPNET in case of ARSAT, and Sayri in case of
Claro) which are used by their engineering teams for network planning and operation.
Outcomes obtained in the field of technology transfer, in terms of participation in start-ups and
spin-offs, development, use and commercialization of patents/licenses.
1) One assigned US patent in the field of optical communications, currently commercialized in
todays 100G/200G ASIC products of ClariPhy.
2) Two start-ups have been initiated by graduate students under my supervision based on their
master thesis, both in the field of wireless sensor networks. Both companies (INSUS and Kilimo)
are still active (2015) and profitable.
3. National and international reputation and professional activity for the scientific community
Editorship of Journals with international reputation (in the role of Editor in Chief – EIC),
editorship of book series, encyclopedias and essays of recognized prestige.
Participation in the Editorial Board of Journals with international reputation (in the role of
Associate Editor or equivalent), participation in the Editorial Board of book series,
encyclopedias and essays of recognized prestige.
1) Member of the Editorial Board of Elsevier Computer Communications Journal in the role of
Area Editor, since 2014
2) Guest Editor of Special Issue on “Optical-Wireless Convergence”, Elsevier Computer
Communications Journal, August 2013
Direction of highly qualified international institutions or research centres.
Official research and/or teaching and/or fellowship roles, positions as Scholar/ Visiting Professor
in international highly qualified universities and research centres.
Offices in the Governing bodies of national and international scientific societies.
Participation in Academies with international reputation in the research field of the candidate.
Prizes and awards awarded to the candidate for his/her scientific activity and project activity in
the Academic Fields, where this is appropriate.
Participation in international conferences, as a distinguished invited speaker; participation in the
scientific committees of International Conferences.
1) General Chair of the VII Southern Conference on Programmable Logic, Córdoba, Argentina,
13 - 15 April 2011 (150 attendees)
2) Program Chair of a) Argentine Symposium on Technology (AST), Mar del Plata, Argentina,
2007, b) Track on Broadband Access of the International Conference on Computer
Communication Networks (ICCCN), Maui, Hawaii, 2011
3) Member of the Technical Committee of periodic conferences including: a) IEEE ICC, b) IEEE
Globecom, c) IFIP Networking.
Management and organisation of exhibitions, compositions, drawings, design, hand-crated items,
prototypes, artwork and their projects, databases and software, thematic maps, for the Academic
Fields, where this is appropriate.
If the candidate has obtained the National Scientific Qualification in more than one Academic Field this
must be considered a qualifying element, for properly evaluating the scientific reputation of the candidate.
4. Teaching activity
Formal responsibility of Bachelor’s and Master of Science’s degree courses in Italian and/or
foreign universities.
1) Responsible (in-charge) of 80-hour undergraduate yearly course in Computer Programming
(INFORMATICA), which is taught to all eleven (11) MScEng engineering degrees (1500
students / year). Coordination and supervision a pool of 17 professors and 24 courses (~65
students / course) distributed among both semesters.
Formal responsibility of PhD courses in Italian and/or foreign universities.
1) Responsible (in-charge) of 40-hour graduate course in “Optical Networks”, which is part of
the curricula of the PhD in Engineering Sciences.
2) Responsible (in-charge) of 40-hour graduate course in “Computer Network Modelling and
Analysis”, which is part of the curricula of the PhD in Engineering Sciences.
Formal responsibility of Specializing Master’s courses and Life Learning courses in Italian
and/or foreign universities.
1) Responsible (in-charge) of 40-hour specializing course in “Optical Networks”, which is part
of the Master in Telecommunication Engineering. Taught every 2 years to ~20 graduate
students.
2) Responsible (in-charge) of 20-hour course in “Optical Transport Networks” (Professional
Life Learning course), taught on demand to professionals of the telecom industry.
3) Responsible (in-charge) of 20-hour course in “Optical Network Engineering” (Professional
Life Learning course), taught on demand to professionals of the telecom industry.
4) Responsible (in-charge) of 20-hour course “Optical Network Optimization” (Professional
Life Learning course), taught on demand to professionals of the telecom industry.
5. Institutional offices and roles in Italian and foreign Universities and/or public and private
institutions with scientific and/or technology transfer aims
Institutional offices and roles in the Governing bodies (Academic Senate, Board of Governors)
of Italian and/or foreign universities.
Institutional offices and roles in teaching and research structures (Departments, Faculties,
Schools, Colleges) and other service activities developed in Italian and Foreign Universities.
1) School of Computer Engineering
Director (2013-2015)
Full Board Member (since 2014) as Representative of Full & Associate Professors
Alternate Board Member (2010-2013) as Representative of Full & Associate Professors
2) PhD Program in Engineering Sciences
Full Board Member (since 2013) out of the 3 required full members for the program
Management roles in Universities, as part of Faculty duties.
1) Alternate Board Member of the Computer Engineering Department (2008-2012)
2) Full Board Member of the Computer Engineering Department since 2013
Offices in the Governing bodies, Board of Governors, Scientific Advisory Boards of public and
private institutions, with scientific and technology transfer aims.
Place and date: Córdoba, January 6, 2016
Complete list of publications
Book Chapters
1. J. Fraire, P. Madoery, J. M. Finochietto. “Contact Plan Design for Predictable Disruption Tolerant
Space Sensor Networks,” Wireless Sensor Systems for Extreme Environments: Space, Underwater,
Underground and Industrial, Chapter 15, Editors: H. Rashvand, A. Abedi, ISBN: 978-1-119-12646-1, Wiley,
In Press, 2015
2. C. Bock, P. Chanclou, J. M. Finochietto, G. Franzl, M. Hajduczenia, T. Koonen, P. P. Monteiro, F. Neri,
J. Prat, H. J. A. da Silva, “Architecture of Future Access Networks,” Next-Generation FTTH Passive
Optical Networks, Springer, 2008
3. C. Bock, J. M. Finochietto, G. Franzl, F. Neri, J. Prat, “Traffic Studies,” Next-Generation FTTH Passive
Optical Networks, Springer, 2008
4. A. Bianco, J. M. Finochietto, G. Galante, M. Mellia, F. Neri, “Open-Source PC-Based Software Routers:
a Viable Approach to High-Performance Packet Switching,” Lecture Notes in Computer Science, Springer
Berlin/Heidelberg, Vol. 3375, ISSN 978-3-540-24557-5, pp. 353-366, February 2005
Journals (JCR Index)
1. J. Fraire, J. M. Finochietto, “Design Challenges in Contact Plans for Disruption-Tolerant Satellite
Networks,” IEEE Communications Magazine, vol. 53, no. 5, pp. 163–169, May 2015. (IF: 4.460)
2. A. Bianco, D. Cuda, J. M. Finochietto, “Short-term fairness in slotted WDM rings,” Computer Networks,
vol. 83, pp. 235-248, June 2015 (IF: 1.714)
3. J. Fraire, J. M. Finochietto, “Routing-aware fair contact plan design for predictable delay toler- ant
networks,” Elsevier Ad Hoc Networks, Vol. 25, Part B, pp. 303-313, February 2015 (IF: 1.943)
4. J. Fraire, P. Madoery, J. M. Finochietto, “On the Design and Analysis of Fair Contact Plans in
Predictable Delay-Tolerant Networks,” IEEE Sensors Journal, vol. 14, no. 11, pp. 3874-3882, November
2014 (IF: 1.852)
5. Guillermo G. Riva, Jorge M. Finochietto, “In-Network Filtering Schemes for Type-Threshold Function
Computation in Wireless Sensor Networks,” International Journal of Distributed Sensor Networks, vol.
2014, 20 pp. 2014 (IF: 0.665)
6. A. Bianco, D. Cuda, J. M. Finochietto, “Multi-Metaring Fairness Control in a WDM Folded-bus
Architecture,” Elsevier Computer Networks, Vol. 62, pp. 152-161, April 2014 (IF: 1.714)
7. D. Crivelli, M. Hueda, H. Carrer, M. del Barco, R. Lopez, P. Gianni, J. M. Finochietto, N. Swenson, P.
Voois, O. Agazzi, “Architecture of a Single-Chip 50 Gb/s DP-QPSK/BPSK Transceiver With Electronic
Dispersion Compensation for Coherent Optical Channels,” IEEE Transactions on Circuits and Systems,
Vol. PP, No. 99, pp. 1-14, October 2013 (IF: 2.403)
8. A. Leiva, J. M. Finochietto, V. L opez, B. Huiszoon, A. Beghelli, J. Aracil, “Comparison in Power
Consumption of Static and Dynamic WDM Networks,” Elsevier Optical Switching and Networking, pp. 149-
161, June 2011 (IF: 1.071)
9. M. Esmaeili, F. Xu, M. Peng, N. Ghani, A. Gumaste, J. M. Finochietto , “Enhanced crankback signaling
for multi-domain IP/MPLS networks,” Elsevier Computer Communications, Vol. 33, Iss. 18, pp. 2215-2223,
December 2010 (IF: 1.695)
10. R. Gaudino, G. Castillo, F. Neri, J. M. Finochietto, “Can Simple Optical Switching Fabrics Scale to
Terabit per Second Switch Capacities?,” IEEE/OSA Journal of Optical Communications and Networking,
Vol. 1, No. 3, pp. 56-69, August 2009 (2.064)
11. J. M. Finochietto, F. Neri, K. Wajda, R. Watza, J. Domzal, M. Nord and E. Zouganeli, “Towards Optical
Packet Switched MANs: Design Issues and Tradeoffs,” Elsevier Journal of Optical Switching and
Networking, Vol. 5, Iss. 4, pp. 253-267, October 2008 (IF: 1.071)
12. C. Raffaelli, K. Vlachos, N. Andriolli, D. Apostolopouloso, J. Buron, R. van Caenegem, G. Danilewicz, J.
M. Finochietto, J. Garcia-Haro, D. Klonidis, M. OMahony, G. Maier, A. Pattavina, P. Pavon-Marino, S.
Ruep, M. Savi, M. Scafardi, I. Tomkos, A. Tzanakaki, L. Wosinska, O. Zourarakio, F. Neri, “Photonics in
Switching: Architectures, Systems and Enabling Technologies,” Elsevier Computer Networks, Vol. 52, Iss.
10, pp. 1873-1890, July 2008 (IF: 1.695)
13. A. Antonino, A. Bianco, A. Bianciotto, V. De Feo, J. M. Finochietto, R. Gaudino, F. Neri, “WONDER: A
resilient WDM packet network for metro applications,” Elsevier Journal of Optical Switching and
Networking, Vol. 5, Iss. 1, pp. 19-28, March 2008 (IF: 1.071)
14. J. M. Finochietto, J. Aracil, A. Ferreiro, J. P. Fernandez Palacios, O. Gonzalez de Dios, “Migration
Strategies Toward All Optical Metropolitan Access Rings,” IEEE/OSA Journal of Lightwave Technology,
Vol. 25, No. 8, August 2007 (IF: 2.965)
15. A. Bianco, J. M. Finochietto, M. Mellia, F. Neri, G. Galante, “Multistage Switching Architectures for
Software Routers,” IEEE Network “Advances in Network Systems”, ISSN: 0890-8044, July 2007 (IF: 2.54)
16. A. Bianco, J. M. Finochietto, G. Giarratana, F. Neri, C. Piglione, “Measurement Based Reconfiguration
in Optical Ring Metro Networks,” IEEE/OSA Journal of Lightwave Technology, Vol. 23, No. 10, pp. 3156-
3166, October 2005 (IF: 2.965)
17. A. Bianco, D. Careglio, J. M. Finochietto, G. Galante, E. Leonardi, F. Neri, J. Sol e-Pareta, S. Spadaro,
“Multi-Class Scheduling Algorithms for the DAVID Metro Network,” IEEE Journal on Selected Areas in
Communications, Vol. 22, No. 8, pp. 1483-1496, October 2004 (IF: 3.453)
18. A. Carena, V. De Feo, J. M. Finochietto, R. Gaudino, F. Neri, C. Piglione, P. Poggiolini, “RingO: An
Experimental WDM Optical Packet Network for Metro Applications,” IEEE Journal on Selected Areas in
Communications, Vol. 22, No. 8, pp. 1561-1571, October 2004 (IF: 3.453)
Journals (other indexes)
1. Carlos A. Zerbini, Jorge M. Finochietto, “Optimization of Lookup Schemes for Flow-Based Packet
Classification on FPGAs,” International Journal of Reconfigurable Computing, vol. 2015, pp. 31, 2015
2. G. Riva, J. M. Finochietto, “Pheromone-based In-Network Processing for Wireless Sensor Network
Monitoring Systems,” Journal of Network Protocols and Algorithms, vol. 4, iss. 4, pp. 156-173, November
2012
International Conferences
1. J. Fraire, P. Madoery, J. M. Finochietto, I. E. Birrane, “Congestion modeling and management
techniques for predictable disruption tolerant networks,” IEEE Conference on Local Computer Networks,
Clearwater Beach, USA, October. 2015
2. Juan Fraire, Pablo Madoery, Jorge M. Finochietto, “Leveraging routing performance and congestion
avoidance in predictable delay tolerant networks,” IEEE International Conference on Wireless for Space
and Extreme Environments, Noordwijk, The Netherlands, 30-31 October 2014
3. Juan Fraire, Pablo Madoery, Jorge M. Finochietto, “On the Design of Fair Contact Plans in Predictable
Delay-Tolerant Networks,” IEEE International Conference on Wireless for Space and Extreme
Environments, Baltimore, USA, 7 - 9 November 2013
4. Carloz Zerbini, Jorge M. Finochietto “Multi-match packet classification on memory-logic trade-off
FPGA-based architecture,” IEEE High Performance Switching and Routing (HPSR), Taipei, Tawian, 8 - 11
July 2013
5. Guillermo Riva, Jorge M. Finochietto, Guillermo Leguizam on, “Bio-inspired in-network filtering for
wireless sensor monitoring systems,” IEEE Congress on Evolutionary Computation (CEC), Cancun, Mexico,
20 - 23 June 2013
6. Carloz Zerbini, Jorge M. Finochietto, “Performance Evaluation of Packet Classification on FPGA-based
TCAM Emulation Architectures,” IEEE Globecom, Anaheim, CA, USA, 3 - 7 December 2012
7. Guillermo Riva, Jorge M. Finochietto, “A Parallel and Adaptative Query Routing Scheme for Wireless
Sensor Networks,” IEEE International Conference on Communications (ICC), Ottawa, Canada, 10 - 15
June 2012
8. Guillermo Riva, Jorge M. Finochietto, “Pheromone-based In-Network Processing for Wireless Sensor
Network Monitoring Systems,” IEEE International Conference on Communications (ICC), Ottawa, Canada,
10 - 15 June 2012
9. M.Hueda, H. Carrer, J. Zachan, V. Gutnik, M. Del Barco, R. Lopez, G. Hatcher, J. M. Finochietto, M.
Yeo, A. Chartrand, N. Swenson, P. Voois, O. Agazzi, “A 40nm CMOS Single-Chip 50Gb/s DP-QPSK/BPSK
Transceiver with Electronic Dispersion Compensation for Coherent Optical Channels,” IEEE International
Solid- State Circuits Conference (ISSCC), San Francisco, USA, 20 - 24 February 2012
10. Jorge M. Finochietto, Carlos Zerbini, Santiago Paz, “Hardware Primitives for Packet Flow Pro- cessing
Architectures,” VII Southern Conference on Programmable Logic, Cordoba, Argentina, 13 - 15 April 2011
11. J. M. Finochietto, R. Arenas, U. Morales, R. Lopez, “Framer Design, Verification and Prototyping for
G.709 Optical Transport Networks,” VII Southern Conference on Programmable Logic, Cordoba,
Argentina, 13 - 15 April 2011
12. M. Esmaeili, M. Peng, S. Khan, J. M. Finochietto, Y. Jin, N. Ghani, “Multi-Domain DWDM Network
Provisioning For Correlated Failures,” Optical Fiber Communication Conference and Exposition (OFC)
2011, Los Angeles, California, USA, 6 - 10 March 2011
13. J. M. Finochietto, J. Ignacio Brasca, “Contention-limited Access Strategies in IEEE 802.15.4 Beacon-
Enabled Networks,” IEEE Globecom, Miami, FL, USA , 6 - 10 December 2010
14. A. Leiva, J. M. Finochietto, Victor L opez, B. Huiszoon, Alejandra Beghelli, “Comparison of Static and
Dynamic WDM Networks in Terms of Energy Consumption,” Optical Fiber Communication Conference and
Exposition (OFC) 2010, San Diego, California, USA, 21 - 25 March 2010
15. R. Arenas, J. M. Finochietto, L. Rocha, “Design and Implementation of Packet Switching Capabilities on
10GbE MAC Core,” VI Southern Conference on Programmable Logic, Ipojuca, Brazil, 24 - 26 March 2010
16. M. Alfani, J. M. Finochietto, F. Neri, “Efficient Multicast Bandwidth Allocation in TDM-WDM PONs,”
Optical Fiber Communication Conference and Exposition (OFC) 2009, San Diego, California, USA, 22 - 26
March 2009
17. A. Bianco, D. Cuda, J. M. Finochietto, F. Neri, M. Valcarenghi, “WONDER: A PON over a Folded
Bus,” IEEE Globecom, New Orleans, LA, USA , 30 November - 4 December 2008
18. A. Bianco, J. M. Finochietto, L. Giraudo, M. Modesti, F. Neri, “Network Planning for Disaster Recovery
[Invited],” IEEE LANMAN Workshop, Cluj-Napoca, Transylvania, Romania , 3-6 September 2008
19. A. Bianco, E. Carta, D. Cuda, J. M. Finochietto, F. Neri, “A distributed scheduling algorithm for an
optical switching fabric,” IEEE International Conference on Communications (ICC), Beijing, China, 19 - 23
May 2008
20. J. M. Finochietto, R. Gaudino, G. Gavilanes, F. Neri, “Simple Optical Fabrics for Scalable Terabit
Packet Switches,” IEEE International Conference on Communications (ICC), Beijing, China, 19 - 23 May
2008
21. A. Bianco, J. M. Finochietto, M. Modesti, F. Neri, “Distributed Storage on Networks of Linux PCs using
the iSCSI Protocol,” IEEE Workshop on High Performance Switching and Routing (HPSR), Shangai, China,
15 - 17 May 2008
22. A. Bianco, R. Birke, J. M. Finochietto, L. Giraudo, F. Marenco, M. Mellia, A. Khan, D. Man- junath,
“Control and Management Plane in a Multistage Software Router Architecture,” IEEE Workshop on High
Performance Switching and Routing (HPSR), Shangai, China, 15 - 17 May 2008
23. J. M. Finochietto, R. Gaudino, G. Gavilanes, F. Neri, “Multiplane Optical Fabrics for Terabit Packet
Switches [Invited],” 12th IFIP TC-6 Working Conference on Optical Network Design and Modelling
(ONDM), Vilanova, Spain, 12 - 14 March 2008
24. A. Antonino,V. De Feo, J. M. Finochietto, R. Gaudino, A. La Porta, F. Neri, M. Petracca, “Toward
Feasible All-Optical Packet Networks: Recent Results on the WONDER Experimental Testbed,” Optical
Fiber Communication Conference and Exposition (OFC) 2008, San Diego, California, USA, 26 - 28
February 2008
25. A. Bianco, J.M. Finochietto, G. Gavilanes, F. Neri, “A Control and Management Plane for Large Packet
Switches,” IEEE IT-NEWS’08 (QoS-IP), 4th International Telecommunication NEtworking WorkShop on
QoS in Multiservice IP Networks, Venice, Italy, 13 - 15 February 2008
26. A. Bianco, J. M. Finochietto, C. Piglione, “Cost and Performance Trade-offs in Reconfiguration
Strategies for WDM Networks,” IEEE IT-NEWS’08 (QoS-IP), 4th International Telecommu- nication
NEtworking WorkShop on QoS in Multiservice IP Networks, Venice, Italy, 13 - 15 February 2008
27. A. Antonino, R. Birke, V. De Feo, J. M. Finochietto, R. Gaudino, A. La Porta, F. Neri, M. Petracca, “The
WONDER Testbed: Architecture and Experimental Demonstration,” 33rd European Conference on Optical
Communication (ECOC 2007), Berlin, Germany, 21 - 25 September 2007
28. A. Bianco, E. Carta, D. Cuda, J. M. Finochietto, F. Neri, “An Optical Interconnection Architecture for
Large Packet Switches [Invited],” International Conference on Transparent Optical Networks (ICTON
2007), Rome, Italy, 2 - 4 July 2007
29. A. Bianco, D. Cuda, J. M. Finochietto, F. Neri, “Multi-MetaRing Protocol: Fairness in Optical Packet
Ring Networks,” IEEE International Conference on Communications (ICC), Glasgow, Scotland , 24 - 27
June 2007
30. A. Bianco, J. M. Finochietto, G. Galante, D. Mazzucchi, M. Mellia, F. Neri, “Scalable Layer-2/Layer-3
Multistage Switching Architectures for Software Routers,” IEEE Globecom, San Francisco, USA , 27
November - 1 December 2006
31. A. Bianco, D. Cuda, J. M. Finochietto, F. Neri, C. Piglione, “Multi-fasnet Protocol: Short-Term
Fairness Control in WDM Slotted MANs,” IEEE Globecom, San Francisco, USA , 27 November - 1
December 2006
32. A. Bianciotto, R. Birke, V. De Feo, J. M. Finochietto, R. Gaudino, A. La Porta, F. Neri, M. Petracca, P.
Poggiolini, “WONDER: Overview of a Packet-Switched MAN Architecture,” 2006 China-Italy Bilateral
Workshop on Photonics for Communication and Sensing, Xi an, China, October 2006
33. P. Chanclou, R. Davey, J. M. Finochietto, G. Franzl, A. M. J. Koonen, J. Lepley, J. Prat, “Long-term
Evolution of Passive Optical Networks,” ICST AccesNets, Athens, 4-6 September 2006
34. A. Bianco, R. Birke, G. Botto, M. Chiaberge, J. M. Finochietto, G. Galante, M. Mellia, F. Neri, M.
Petracca, “Boosting the Performance of PC-based Software Routers with FPGA-enhanced Network
Interface Cards,” IEEE Workshop on High Performance Switching and Routing (HPSR), Poznan, Poland, 7
- 9 June 2006
35. A. Bianciotto, A. Samperi, R. Gaudino, C. Piglione, J. M. Finochietto and F. Neri, “Fast and efficient
fault-recovery strategies in the WONDER metro architecture [Invited],” 10th European Conference on
Networks and Optical Communications (NOC 2005), London, UK, 5 - 7 July 2005
36. A. Bianco, R. Birke, D. Bolognesi, J. M. Finochietto, G. Galante, M. Mellia, Prashant M., F. Neri, “Click
vs. Linux: Two Effcient Open-Source IP Network Stacks for Software Routers,” IEEE Workshop on High
Performance Switching and Routing (HPSR), Hong Kong, P. .R. China, 12 - 14 May 2005
37. A. Bianco, J. M. Finochietto, G. Galante, M. Mellia, F. Neri, “Open-Source PC-Based Software Routers:
a Viable Approach to High-Performance Packet Switching,” QoSIP 2005, Catania, Italy, 2 - 5 February
2005
38. A. Bianciotto, A. Carena, V. De Feo, J. M. Finochietto, R. Gaudino, F. Neri, C. Piglione, P. Poggiolini,
“Experimental WDM Packet Networks for Metro Experimental WDM Packet Networks for Metro
Applications: the RingO and Wonder Projects,” 9th European Conference on Networks & Optical
Communications (NOC 2004), Eindhoven, 29 June - 1 July 2004
39. A. Bianco, J. M. Finochietto, G. Galante, F. Neri, V. Sarra, “Scheduling Variable-Size Packets in the
DAVID Metropolitan Area Network,” IEEE International Conference on Communications (ICC), Paris,
France, 20 - 24 June 2004
40. A. Bianco, J. M. Finochietto, G. Galante, F. Neri, V. Sarra, “A Fairness Enforcement Protocol for
Interconnected WDM Rings,” 8th IFIP TC-6 Working Conference on Optical Network Design and
Modelling (ONDM 2004), Gent, Belgium, February 2 - 4, 2004
41. A. Bianco, J. M. Finochietto, E. Leonardi, F. Marigliano, P. Mitton, F. Neri, L. Quarello, “Mul- ticlass
Resource Allocation in Interconnected WDM Rings,” 7th IFIP TC-6 Working Conference on Optical
Network Design and Modelling (ONDM 2003), Budapest, Hungary, ISBN: 963 206 405, 3 - 5 February 2003
National Conferences
1. N. Gonzalez Montoro, J. M. Finochietto, “Incremental Spare Capacity Allocation for Optical Networks
Restoration,” XVI Reuniónn de trabajo en Procesamiento de la Información y Control, Córdoba, Argentina,
5 - 9 October 2015
2. P. Madoery, J. Fraire, J. M. Finochietto, “Ana lisis de Estrategias de Comunicaci on en Constela- ciones
Satelitales para la Observacio n Terrestre,” XVI Reunión de trabajo en Procesamiento de la Información y
Control, Córdoba, Argentina, 5 - 9 October 2015
3. Carlos Zerbini, Jorge M. Finochietto, “Reconfigurable Network Processing: The FPGA Case,” XII
Argentine Symposium on Technology (AST 2011), Córdoba, Argentina, 29 August - 2 September 2012
4. Guillermo Riva, Jorge M. Finochietto, “A Probabilistic Query Routing Scheme for Wireless Sensor
Network,” XII Argentine Symposium on Artificial Intelligence (ASAI 2011), Córdoba, Argentina, 29 August -
2 September 2012
5. Guillermo Riva, Jorge M. Finochietto, Juan Pablo Licudis, Juan Carlos Abdala, “Flexible Prototyping for
Ad Hoc Wireless Sensor Network Protocols,” XII Argentine Symposium on Technology (AST 2011), C
órdoba, Argentina, 29 August - 2 September 2012
6. A. Antonino, V. De Feo, J. M. Finochietto, R. Gaudino, A. La Porta, F. Neri, M. Petracca, “I Progetti
WONDER e OSATE: Studio e Sperimentazione di un’Architettura di Commutazione Ottica a Pacchetto,”
Fotonica 2007, Mantova, Italy, 21 - 23 May 2007