Upload
others
View
2
Download
0
Embed Size (px)
Citation preview
1/53
.
Prof. Dr. Hasan BULUT
Hasan Bulut is currently a Assist. Professor of mathematics in Firat University. He has
published more than 130 articles journals. His research interests include stochastic differential
equations, fluid and heat mechanics, finite element method, analytical methods for nonlinear
differential equations, mathematical physics, and numerical solutions of the partial differential
equations,computer programming.
Address: Firat University, Faculty of Science
Department of Mathematics, 23119, Elazig/Turkey
Phone :(+90) 424-2370000/3671 GSM 05324251522
E-mail : [email protected]
URL : http://www.firat.edu.tr
2/53
EDUCATION
Ph. D. : Firat University, Department of Mathematics, 2002, Elazig, Turkey.
Dissertation: Solutions of Linear and Nonlinear Stochastic Differential Equations By
The Decomposition Method
Co-advisors: Prof. Dr. Mahmut ERGUT
GPA: 85.25 / 100
M.S.: Firat University, Department of Mathematics, 1997, Elazig, Turkey.
Co-advisors: Prof. Dr. Necdet BİLDİK
GPA: 79.32 / 100
B.S.: Firat University, Department of Mathematics, 1993, Elazig, Turkey
GPA: 2 / 4
Keyword Descriptors of Research
Stochastic Differential Equations, Truncation Error, Computer programming, Heat
transfer, Ordinary and Partial Differential Equations, Fractional Differential Equations,
Mathematica Programming Language 9, Fortran Programming Language. Analytical methods
and Semi-analytical methods such as Trial equation methods, Tanh function method, Sumudu
Transform methods, Generalized Kudrashov method, One Step Method, Finite-Difference
Method, Decomposition Method, Homotopy Perturbation method, Homotopy analysis
method, Variational iteration method, Natural transform decomposition method, Homotopy
perturbation sumudu transform method, Improved Bernoulli Sub-Equation Function Method
The list of Supervissioned Master Thesis
1. Hacı Mehmet Baskonus, Numerical Solution of Some Nonlinear Diferantial
Equations Solutions by Using Homotopy Perturbation Method And Adomian
Decomposition Method, 2010.
2. Hasan Hüseyin Özgen,The Numerical Solutions of Nonlinear Partial Diferantial
Equations by Using Variational Iteration Method, 2010.
3. Tuğçem Partal, The Numerical Solutions of Some Nonlinear Partial Diferantial
Equations by Using Finite Difference Method, 2011.
4. Tolga Aktürk, Numerical Solution of The Advection Diffusion Equation by Using
Finite Element Method,2011.
5. Burcu Baydemir, The solutions via Sumudu Transform Method of Ordinary and
Partial Differential Equations, 2014.
6. Miraç Kayhan, The Solution of Differantial Equations with Fractional Order
Solutions by Using Finite Difference Methods and Iteration Methods, 2013.
3/53
7. Eren Cüvelek, Simetrik Düzgün Uzun Dalga Denkleminin Genişletilmiş Deneme
Denklem ve Genelleştirilmiş Kudryashov Metotları ile Çözümlerinin İrdelenmesi
2016.
8. Dilara Gizem Emir, Bazı Kısmi Diferensiyel Denklemlerin Bernoulli Alt-Denklem
Fonksiyon Metodu ile Çözümlerinin İrdelenmesi 2016.
9. Hasan Burak Demirci, Under the Classes, 2014.
10. Tuğba Alanbay, Under the Classes, 2014.
11. Azad Shakir Under the Classes, 2015
12. Özge IRMAK Under the Classes, 2015
13. Sibel Şehriban ATAŞ Under the Classes, 2015
14. Rabar Mohammed Rasul Under the Classes, 2015
15. Tukur Abdulkadir SULAIMAN Under the Classes, 2015.PHD
The list of Supervissioned Ph. D. Thesis
1. Hacı Mehmet Baskonus, The Numerical Solutions of Some Linear and Nonlinear
Fractional Differential Equations, 2010-2014
2. Şeyma Tülüce Demiray, The Solution Methods Linear And Nonlinear Fractional
Differential Equations, 2011-2014
3. Tolga Aktürk, The Determinated Analytical Solutions of Some Nonlinear Partial
Differential Equations by Trial Equation Methods,2011- 2015
Work Experiences
Associate Professor, Firat University, Faculty of Science, Department of Mathematics,
2012-, Elazig, Turkey.
Assistant Professor, Firat University, Faculty of Science, Department of Mathematics,
1998-2001, Elazig, Turkey.
Teaching Assistant, Firat University, Faculty of Science, Department of Mathematics,
1996-1998, Elazig, Turkey.
Research Assistant, Firat University, Faculty of Science, Department of Mathematics,
1990-1992, Elazig, Turkey.
PROJECTS
1-Kuramoto-Sivashinsky denkleminin sayısal çözümü için Adomian ayrışım metodu ve
varyasyonel iterasyon metodu arasında bir karşılaştırma, Mustafa İnç, Hasan Bulut,
Researcher, FÜBAP, FF.15.89 2008-2009.
4/53
2-Fitzhugh-Nagumo denkleminin sayısal çözümü için Homotopi pertürbasyon ve Adomian
ayrışım metotları, Hasan Bulut, Mustafa İnç, Supervisor of Project, , FÜBAP FF.16.42 2008-
2009.
3- Hasan Bulut, Haci Mehmet Başkonuş, Lineer Olmayan (3+1)-Boyutlu Breaking Soliton
Denklemine Homotopi Pertürbasyon Metodunun Uygulanması, FF.11.32. FÜBAP, 2011-
2012.
4-Harput Kalesinin Gizemi-Elazig Avrupa Birligi Projesi. Matematik Kulübü, 2005-2006.
5- Maden Meslek Yüksek Okulu Laboratuarına Deney Aletlerinin Alınması, MMY10.01,
FÜBAP, 2011-2012.
6- TUBITAK, 2221-Konuk veya Akademik Izinli (Sabbatical) Bilim Insanı Destekleme
Programı, Kesirli Mertebeden Diferansiyel Denklemlerdeki Gelismeler, 2221 -
(1059B211404615), 14.02.20015-24.02.2015.
D. SCIENTIFIC ACTIVETIONS
D1. The member of Organising Comitee
IstTurkish World Mathematics Symposium, 29 June-2 July 1999, Firat University,
Elazig / Turkey
D2. The member of Organising Comitee
I Geometri Sempozyumu, 3- 4 July 2003, Firat University, Elazig. Turkey
D3. The member of Organising and Scientific Comitee,
1. Öğrenci Çalıştayı, Firat University, Department of Mathematics, Faculty of
Science, 29-30 April, 2011, Elazig.
D4. The member of Organising and Scientific Comitee,
2. Öğrenci Çalıştayı, Firat University, Department of Mathematics, Faculty of
Science, 27-28 April, 2012, Elazig.
D5. The head of Organising and The Member of Scientific Comitee,
3. Öğrenci Çalıştayı, Firat University, Department of Mathematics, Faculty of
Science, 10-11 May, 2013 , Elazig.
D6. Life Long Learning/Erasmus-Teaching Program
“1-Decembrie 1918” University of Alba Iulia/ Romania
5/53
19.11.2012-23.11.2012.
D7. LLP-Erasmus Staff Training Mobility Program,
“Petru Maior” University of Targu-Mureş/Romania, 04.11.2013-08.11.2013
D8. Seminer, The Solution of Fractional Wave Equatıon by using Modified Trial
Equation Method and Homotopy Analysis Method, - Muğla Sıtkı Koçman Üniversitesi
/Türkiye, 11.06.2014-12.06.2014
D9. SYMPOSIUM PRESIDENT (Hasan Bulut and Ömer Akın ),The member of Organising
and Scientific Comitee ,International Conference on Mathematics and Mathematics Education
(ICMME-2016), Elazig/Turkey,12-14 May 2016.
D10. SYMPOSIUM PRESIDENT (Hasan Bulut and Zakia Hammouch),The member of
Organising and Scientific Comitee ,1and 2 International Conference on Computational
Mathematics and Engineerig Sciences (CMES-2016-2017),Morroco /Turkey,20-22 May
2016-2017.
PUBLICATIONS
A. Articles in the International Referee Journals
A1.Bulut, H. and İnç, M.,“A Two Step Method for The Numerical Integration of Stiff
Differential Equations”, Inter. J. Computer Math,73, 333-340, (1998). SCI-Expanded.
A2.Kaya, D. and Bulut, H.,“The Decomposition Method For Approximate Solution of a
Burgers Equations”. Bulletin of the Institute of Mathematica Academica,28 (1), 35-42,
(2000).
A3.İnç, M. and Bulut, H.,“On The Solution of The First Order Nonlinear Equation by The
Decomposition Method”,Journal of Institute of Math Computer Sciences,13 (1), 13-16,
(2000).
A4.Bildik, N.and Bulut, H.,“An A–stable Extended Rectangular Rule For The Integration of
Ordinary Differential Equations”,Hadronic Journal Supplement,15, 184-193, (2000).
A5.Bulut, H. And Turhan, E.,“A new Approach to The Dissipative Wave Equations: An
Application of The Decomposition Method”,Journal of Institute of Math Computer
Sciences,13(3), 291-296, (2000).
A6. Evans, D.J. and Bulut, H.,“A new Approach to The Gas Dynamics Equations: An
Application of The Decomposition Method”, Inter. J. Computer Math, 79 (7), 817-822,
(2002). SCI-Expanded
6/53
A7.Bulut, H.andEvans, D.J., “On The Solution of The Riccati Equation by The
Decomposition Method”, Inter. J. Computer Math, 79 (1), 103-109, (2002). SCI-Expanded
A8.Ergüt, M. and Bulut, H., “The Numerical Solution of 2-Dimensional Partial Differential
Equations by The Decomposition Method”, Journal of Natural ScienceMathematics, 42 (1),
07-20, (2002).
A9.Bulut, H. and Ergüt, M., “Decomposition Method For The Solution Of The Nonlinear
Stochastic Differential Equations”, Hadronic Journal, 26(5), 665-680, (2002).
A10.Bulut, H. and Evans, D.J., “Oscillations of Solution of Initial Value Problems for
Parabolic Equations by The Decomposition Method”, Inter. J. Computer Math,80 (7),863-
868, (2003). SCI-Expanded
A11.Evans, D.J.,Ergüt,M. And Bulut, H.,“The Numerical Solution of Multidimensional
Partial Differential Equations by The Decomposition Method”, Inter. J. Computer Math, 80
(9),1189-1198, (2003). SCI-Expanded.
A12.Bulut, H. And Evans, D.J.,“The Numerical Solution of The Telegraph Equation by The
Alternating Group Explicit(AGE)Method”, Inter. J. Computer Math,80 (10),1289-1297,
(2003). SCI-Expanded.
A13.Bulut, H.,Ergüt, M., Asil, V.and Bokor, R., “Numerical Solution of a Viscous
İncompressible Flow Problem Through an Orifice by Adomian Decomposition Method”,
Applied Math and Computation,Vol.153, 733-741,(2004). SCI-Expanded.
A14.Asil, V.,Bulut, H.,Evans, D.J., “On The Oscillatory Solutions of Nonlinear Hyperbolic
Differential Equations by The Decomposition Method”,Inter. J. Computer Math, 81 (5), 639-
645, (2004). SCI-Expanded.
A15.Asil, V.,Bulut, H.and Evans, D.J., “The Adomian Decomposition Method for the
approximate solution of Homogeneous Differential Equations with Dual Variable and Dual
Coefficients”, Inter. J. Computer Math, 82 (8), 977-986, (2005). SCI-Expanded.
A16.Kaya, D.,Bulut, H.andİnç, M., “Numerical Study of a Klein-Gordon Equation by The
Adomian’s Decomposition Method”, Hadronic Journal, 28, 311-318, (2005).
A17.Bulut, H.and Turhan, E., “New Multiple Solution To The Shallow Water Wave
Equation”, e-Journal of New World Sciences Academy,1 (4), 102-106, (2006).
A18.Bulut, H.,“A Comparison Among Homotopy Perturbation Method and The
Decomposition Method with The Variational Iteration Method for Helmholtz Equation”, e-
Journal of New World Sciences Academy, 3 (1), 93-106, (2008).
A19.Bulut, H.,“Comparing Numerical Methods for Bossiness Equation Model Problem”,
Numerical Methods for Partial Differential Equations,25 (4), 783-796 (2009).SCI-Expanded.
7/53
A20.Bulut, H. and Baskonus H.M.,‘A Comparison Among Homotopy Perturbation Method
And The Decomposition Method With The Variational Iteration Method For Dispersive
Equation’, International Journal of Basic & Applied Sciences,9(10), 32-42,(2009).
A21.İnan. İ,E and Bulut, H., “Complex Solutions for Fifth Order Kdv Equation and (3+1)
Dimensional Burgers Equation”, e-Journal of New World Sciences Academy, 4(3), 60-65,
(2009).
A22.Bulut, H. and Baskonus H.M., ‘A Study On The Numerical Solution Of The Third-
Order Dispersive Equation With Homotopy Perturbation Method’, e-Journal of New World
Sciences Academy, 5 (1), 18-30, (2010).
A23.Bulut, H. and Baskonus H.M., ‘Numerical Solution Study on KDV, the Burgers and the
K(2,2) Equations with HPM’, Journal of Advanced Research in Diferential Equations, 2 (1),
73-86, (2010).
A24.Bulut, H. and Baskonus H. M., ‘Geometrical Interpretation and A Comparative Study
Between Three Different Methods For Solving The Non-Linear Kdv Equation’, Journal of
Advanced Research in Scientific Computing, 2 (1), 69-76, (2010).
A25.Bulut, H.and Baskonus H.M., ‘Homotopy Perturbation Method for Nonlinear Damped
Generalized Regularized Long-Wave’, Applied Mathematical Sciences, 4 (65), 3211–3217,
(2010).
A26.Bulut, H. , ‘Comparison between The Alternating Group Explicit Method and Adomian
Decomposition Method for Solution of Coupled Viscous Burgers Equation’,Nonlinear
Science Letters A, 1(2), 161–172, (2010).
A27.Bulut, H. and Keleşoglu, Ö. “Comparing Numerical Methods for Response of Beams
with Moving Mass”, Advances in Engineering Software, 41, 976-980 (2010). SCI-Expanded.
A28.Bulut, H. and Partal,T., ‘Comparing the Solution of the Kdv Equation By Three
Different Methods’, Journal of Advanced Research in Scientific Computing, 2(3), 24-34,
(2010).
A29.Mousa .M.M and Kaltayev .A , Bulut, H., ‘Extension of The Homotopy Perturbation
Method for Solving Nonlinear Differential- Difference Equation’, Zeitschriftfür
Naturforschung A, (65 a), 1060–1064, (2010). SCI-Expanded
A30.Bulut, H. and Baskonus H.M.,Ozgen H.H., ‘Numerical Solution Study On The Burgers’
Equation with Homotopy Perturbation Method’, International Journal of Basic & Applied
Sciences,10 (1), 8–13, 2010.
A31.Bulut, H.,Baskonus, H.M., and Tuluce, S.,Homotopy perturbation sumudu transform
Method For one-two-three-dimensional initial value problems, e-Journal of New World
Sciences Academy NWSA-Physical Sciences, 3A0051, 7(2), 55-65, 2012.
8/53
A32. Hasan Bulut, H. Mehmet Baskonus, Seyma Tuluce, The solution of wave equations by
Sumudu transform method, Journal of Advanced Research in Applied Mathematics,
Online ISSN: 1942-9649, 4(3), 66-72, 2012.
A33. Hasan BULUT, H Mehmet BASKONUS and Seyma TULUCE, The Solutions of
Partial Differential Equations with Variable Coefficient by Sumudu Transform Method, AIP
Proceeding,1493(91), doi: 10.1063/1.4765475,2012. (SCI)
A34. Hasan BULUT and H Mehmet BASKONUS, On The Geometric Interpretations of The
Klein-Gordon Equation And Solution Of The Equation By The HPM, Applications and
Applied Mathematics: An International Journal (AAM), ISSN: 123415-837838, 7(2), 619 –
635. 2012.
A35. Hasan BULUT, H Mehmet BASKONUS and Seyma TULUCE, Homotopy
Perturbation Sumudu Transform Method For Heat Equations, Mathematics In Engineering,
Science And Aerospace (MESA), 4(1), 49-60,2013.
A36.Hasan BULUT and Haci Mehmet BASKONUS, The oscillations of Solutions of Initial
Value Problems for Parabolic Equations by HPM, Applied Mathematics Journal, m-hikari,
7(53), 2621 – 2627,2013.
A37.Hasan Bulut, Münevver Tuz, Tolga Akturk, New Multiple Solution to The Boussinesq
Equation and The Burgers -Like Equation, Journal of Applied Mathematics, Volume 2013
(2013), Article ID 952614, 6 pages, 2013. (SCI)
A38. Bülent Kiliç and Hasan Bulut, A New Method with a Different Auxiliary Equation to
Obtain Solitary Wave Solutions for Nonlinear PartialDifferential Equations, Advances in
Mathematical Physics, Volume, 2013, Article ID 890784, 11 pages, 2013. (SCI)
A39. Hasan Bulut and Bülent Kiliç, Finding Exact Solution By Using A New Auxiliary
Equation For Fractional Rlw Burges Equation, e-Journal of New World Sciences Academy,
NWSA-Physical Sciences, 3A0061, 8(1), 1-10, 2013.
A40. Hasan Bulut and Bülent Kiliç, Exact Solutions For Some Fractional Nonlinear Partial
Differential Equations via Kudryashov Method, e-Journal of New World Sciences Academy,
NWSA-Physical Sciences, 3A0063, 8(1), 24-31, 2013.
A41. Hasan BULUT, Tolga AKTURK and Yusuf UCAR, The Solution of Advection
Diffusion Equation by the Finite Elements Method, International Journal of Basic & Applied
Sciences IJBAS-IJENS Vol:13 No:01, 2013.
A42. Hasan Bulut, Yusuf Pandir, Modified trial equation method to the nonlinear fractional
Sharma–Tasso–Olever equation, International Journal of Modeling and Optimization,Vol:3
No:4,353-357,2013.
A43. Hasan Bulut, Haci Mehmet Baskonus and Yusuf Pandir, The Modified Trial Equation
Method for Fractional Wave Equation and Time-Fractional Generalized Burgers Equation,
Abstract and Applied Analysis, Vol. 2013 (2013), 1-8 pages, 2013. (SCI)
9/53
A44. Hasan Bulut, Haci Mehmet Baskonus and Fethi Bin Muhammad Belgacem, The
Analytical Solutions of Some Fractional Ordinary Differential Equations By Sumudu
Transform Method,Abstract and Applied Analysis,Volume 2013, Article ID 203875, 6
pages,http://dx.doi.org/10.1155/2013/203875, 2013. (SCI)
A45. Fethi Bin Muhammad Belgacem, Hasan Bulut, Haci Mehmet Baskonus and Tolga
Akturk, Mathematical Analysis of Generalızed Benjamin And Burger Kdv Equations Via The
Extended Trial Equation Method, Journal of the Association of Arab Universities for Basic
and Applied Sciences, Vol. 16 (2014), 91-100 pages DOI: 10.1016/j.jaubas.2013.07.005,
2014.
A46.Hasan Bulut, Classification of exact solutions for generalized form of K(m,n) equation,
Abstract and Applied Analysis, Vol. 2013 (2013), 1-11 pages, 2013. (SCI)
A47. Hasan Bulut, Yusuf Pandir, and Haci Mehmet Baskonus, Symmetrical Hyperbolic
Fibonacci Function Solutions of Generalized Fisher Equation with Fractional Order, AIP
Conf. Proc. 1558, 1914 (2013); http://dx.doi.org/10.1063/1.4825907, 2013. (SCI)
A48. Hasan BULUT, Haci Mehmet BASKONUS and Seyma TULUCE, The solutions of
homogenous and nonhomogeneous linear fractional differential equations by variational
iteration method, Acta Universitatis Apulensis. Mathematics-Informatics, vol: 36, 235-243,
2013.
A49. Hasan BULUT, H Mehmet BASKONUS and Seyma TULUCE, Homotopy
perturbation sumudu transform method for one and two dimensional homogeneous heat
equations, Int.Journal of Basic & Applied Sciences (IJBAS), 12(01), 06-16, 2012.
A50. Hasan BULUT, H Mehmet BASKONUS, Seyma TULUCE and Tolga AKTURK, A
Comparison between HPM and ADM for The Nonlinear Benjamin-Bona-Mahony Equation,
International Journal of Basic and Applied Sciences, 11(03), 146–157, 2011.
A51. Abdon Atangana, Hasan Bulut, Extension of Homotopy Decomposition Method
(HDM) To Coupled Nonlınear Van Der Pol Type’s Equation, Scientific Bulletin of the “Petru
Maior” University of Tîrgu Mureş Vol. 10 (XXVII) , no. 2, 2013.
A52. Seyma TULUCE DEMIRAY, H. Mehmet BASKONUS and Hasan BULUT,
Application of The HPM for Nonlinear (3+1)-Dimensional Breaking Soliton Equation,
Mathematics In Engineering, Science And Aerospace (MESA), 5(1), 127-133, 2014.
A53. Haci Mehmet BASKONUS, Hasan BULUT, Yusuf Pandir, The natural transform
decomposition method for lineer and nonlinear partial differantial equations. Mathematics In
Engineering, Science And Aerospace (MESA), 5(1), 121-126, 2014.
A54.Hasan BULUT, Gonca Onargan & Yavuz Ugurlu, Exp- Function Method For Solutions
of (3+1) Dimensional Breaking Solıton and Gardner –Kp equations.
10/53
IJRRAS 18 (1), 79-84, 2014.
A55. Abdon Atangana, Seyma Tuluce Demiray, and Hasan Bulut , Modelling the Nonlinear
Wave Motion within the Scope of the Fractional Calculus, Abstract and Applied Analysis,
Vol. 2014 , 1-7 pages, 2014. (SCI)
A56. Seyma Tuluce Demiray, Yusuf Pandır and Hasan Bulut, Generalized Kudryashov
method for Time Fractional Differential Equations, Abstract and Applied Analysis, Vol. 2014 ,
13 pages, 2014. Article ID 901540 (SCI)
A57.Hasan Bulut, Yusuf Pandir, and Seyma Tuluce Demiray, Exact Solution of Nonlinear
Schrodingers Equation with Dual Power –Law Nonlinearity by Extended Trial Equation
Method , Waves in Random and Complex Media, 24(4), 439-451, 2014. (SCI)
A58. Hasan Bulut, Yusuf Pandir and Seyma Tuluce Demiray, Exact Solutions of Time-
Fractional KdV Equations by Using Generalized Kudryashov Method , International Journal
of Modeling and Optimization,Vol:4 No:4,315-320,2014.
A59. Haci Mehmet Baskonus, Hasan Bulut, Yusuf Pandir, On The Numerical Solution of
Nonlinear Time –Fractional Generalized Burgers Equation by Homotopy Analysis Method
and Modified Trial Equation Method, International Journal of Modeling and
Optimization,Vol:4(4), 305-309,2014.
A60. H. Bulut, S. Tuluce Demiray, M. Kayhan, The Approximate Solutions Of Time-
Fractional Diffusion Equation By Using Crank Nicholson Method, Acta Universitatis
Apulensis, 40, 103-112, 2014
A61. Hasan Bulut, Yusuf Pandir, and Haci Mehmet Baskonus, On the exact solutions of high
order wave equations of KdV type (I), AIP Conference Proceedings, Vol. 1637, 114-126
(2014). (SCI)
A62. Hasan Bulut, Tolga Akturk, and Yusuf Gurefe, Traveling wave solutions of the (N+1)-
dimensional sine-cosine-Gordon equation, AIP Conference Proceedings, Vol. 1637, 145-149
(2014). (SCI)
A63. Zeynep Fidan Kocak, Hasan Bulut, and Gulnur Yel, The solution of fractional wave
equation by using modified trial equation method and homotopy analysis method, AIP
Conference Proceedings, Vol. 1637, 504-512 (2014). (SCI)
A64. Seyma Tuluce Demiray, Yusuf Pandir, and Hasan Bulut, The investigation of exact
solutions of nonlinear time-fractional Klein-Gordon equation by using generalized
Kudryashov method, AIP Conference Proceedings, Vol. 1637, 283-289 (2014). (SCI)
A65. Seyma Tuluce Demiray and Hasan Bulut, Some Exact Solutions of Generalized Zakharov
System, Waves in Random and Complex Media, Vol. 25(1) , 75-90, 2015. (SCI)
A66.Seyma Tuluce Demiray, Hasan Bulut and Gonca Onargan, An Application of
Generalized tanh Function Method for the Sixth-Order Boussinesq (sB) Equation and (1+1)
11/53
Dimensional Dispersive Long Wave Equation, Applied Mathematical Sciences, 9(16), 773-
790, 2015.
A67. Hasan Bulut, Tolga Aktürk, and Yusuf Gürefe, An Application of The New Function
Method to The Generalized Double Sinh-Gordon Equation, AIP Conference Proceedings
1648, 370014-(1-4), 2015,(SCI) .
A68. Seyma Tuluce Demiray, Yusuf Pandir and Hasan Bulut, The Analysis of The Exact
Solutions of The Space Fractional Coupled KD Equations, AIP Conference Proceedings 1648,
370013-(1-5), 2015,(SCI) .
A69. Haci Mehmet Baskonus, Hasan Bulut, Fethi Bin Muhammad Belgacem, On Some New
Exact Solutions of Special Type of the Nonlinear Dodd–Bullough–Mikhailov Equation,
Advances in Mathematics and Statistical Sciences, 76-85, 2015.
A70. Hasan Bulut, Fethi Bin Muhammad Belgacem, Haci Mehmet Baskonus, Some New
Analytical Solutions for the Nonlinear Time-Fractional KdV-Burgers-Kuramoto Equation,
Advances in Mathematics and Statistical Sciences, 118-129, 2015.
A71. Fethi Bin Muhammad Belgacem, Hasan Bulut, Haci Mehmet Baskonus, Variational
Iteration Method for Hyperchaotic Nonlinear Fractional Differential Equations Systems,
Advances in Mathematics and Statistical Sciences, 445-453, 2015.
A72. Seyma Tuluce Demiray , Yusuf Pandir ,Hasan Bulut, New Soliton Solution for Sasa-
Satsuma Equation , Waves in Random and Complex Media,Vol. 2015 , 1-12 pages, 2015.
(SCI)
A73. Seyma Tuluce Demiray , Yusuf Pandir ,Hasan Bulut, New Solitary Wave Solutions of
Maccari System, Ocean Engineering ,Vol. 103 , 153-159 pages, 2015. (SCI)
A74. Haci Mehmet Baskonus, Hasan Bulut, New Hyperbolic Function Solutions for Some
Nonlinear Partial Differential Equations Arising in Mathematical Physics , Entropy, 4255-
4270, 2015. (SCI)
A75. Hacı Mehmet Başkonuş, Hasan Bulut ve Dilara Gizem Emir, Regarding New Complex
Analytical Solutions for The Nonlinear Partial Vakhnenko-Parkes Differential Equation via
Bernoulli Sub-Equation Function Method, Mathematics Letters ,Vol.1(1) ,1-9 pages, 2015
A76. Hacı Mehmet Başkonuş, Hasan Bulut, On Some New Analytical Solutions for the
(2+1)-Dimensional Burgers Equation and the Special Type of Dodd-Bullough-Mikhailov
Equatıon, Journal of Applied Analysis and Computation, 5(4), 613-625, 2015. (SCI)
A77. Hacı Mehmet Başkonuş, Hasan Bulut , Analytical studies on the (1+1)-dimensional
nonlinear Dispersive Modified Benjamin-Bona-Mahony equation defined by seismic sea
waves, Waves in Random and Complex Media, http://dx.doi.org/10.1080/17455030.1062577,
2015. (SCI)
12/53
A78. Seyma Tuluce Demiray, Hasan Bulut and Fethi Bin Muhammad Belgacem, Sumudu
Transform Method for Analytical Solutions of Fractional Type Ordinary Differential
Equation, Mathematical Problems in Engineering Vol. 2015, 1-6 pages, 2015. (SCI)
A79. Haci Mehmet Baskonus, Toufik Mekkaoui , Zakia Hammouch, Hasan Bulut, Active
Control of a Chaotic Fractional Order Economic System, Entropy, 5771-5783, 2015. (SCI)
A80. H. M. Baskonus and H. Bulut, On the Complex Structures of Kundu-Eckhaus Equation
via Improved Bernoulli Sub-Equation Function Method, Waves in Random and Complex Media,
DOI: 10.1080/17455030.2015.1080392, 2015. (SCI).
A81. Demiray, S.T.; Bulut, H. New Exact Solutions of the New Hamiltonian Amplitude
Equation and Fokas Lenells Equation. Entropy, 17, 6025-6043, 2015. (SCI).
A82. H. M. Baskonus and H. Bulut, On the Numerical Solutions of Some Fractional
Ordinary Differential Equations by Fractional Adams-Bashforth-Moulton Method, Open
Mathematics, 13,547-556, 2015. (SCI).
A83. Haci Mehmet Baskonus and Hasan Bulut, An Effective Scheme for Solving Some
Nonlinear Partial Differential Equation Arising In Nonlinear Physics, Open Physics, 13(1),
280–289, 2015, (SCI).
A84. Haci Mehmet Baskonus and Hasan Bulut, A Comparsion between NTDM and VIM for
Modified Camassa-Holm and Modified Degasperis-Procesi Equation ,Nonlinear Studies,
22(4),601–611, 2015.
A85. Figen Özpinar, Haci Mehmet Baskonus and Hasan Bulut, On the Complex and
Hyperbolic Structures for the (2+1)-Dimensional Boussinesq Water Equation, Entropy, 17,
8267–8277, 2015(SCI).
A86. Hasan Bulut, Haci Mehmet Baskonus, Eren Cüvelek, On The Prototype Solutions of
Symmetric Regularized Long Wave Equation by Generalized Kudryashov Method,
Mathematics Letters, 1(2), 10-16, 2015.
A87. Haci Mehmet Baskonus and Hasan Bulut, Exponential Prototype Structures for (2+1)-
Dimensional Boiti-Leon-Pempinelli Systems in Mathematical Physics, Waves in Random and
Complex Media, 26(2), 201-208, 2016. (SCI).
A88. Seyma Tuluce Demiray, Yusuf Pandir, Hasan Bulut, All Exact Travelling Wave
Solutions of Hirota Equation and Hirota- Maccari System, Optik-International Journal for
Light and Electron Optics ,Vol. 127(4) , 1848-1859 pages, 2016. (SCI)
13/53
A89. Seyma Tuluce Demiray, Hasan Bulut, Generalized Kudryashov Method for Nonlinear
Fractional Double Sinh-Poisson Equation, Journal of Nonlinear Science and Applications
Vol. 9, 1349-1355 pages, 2016. (SCI)
A90. Haci Mehmet Baskonus, Hasan Bulut, Abdon Atangana, On the Complex and
Hyperbolic Structures of Longitudinal Wave Equation in a Magneto-Electro-Elastic Circular
Rod, Smart Materials and Structures, Vol. 25(3), 035022-(8pp), 2016. (SCI)
A91. Hasan Bulut, Haci Mehmet Baskonus, New Complex Hyperbolic Function Solutions
for the (2+1)-Dimensional Dispersive Long Water–Wave System, Mathematical and
Computational Applications, 21(2), 6, 2016. (ULAKBİM)
A92. Hasan Bulut, Seyma Tuluce Demiray, New Exact Solutions of the System of Equations
for The Ion Sound and Langmuir Waves by ETEM, Mathematical and Computational
Applications, 21(2), 11, 2016. (ULAKBİM)
A93. Haci Mehmet Baskonus, Altan Koç Dilara, Bulut Hasan, New Travelling Wave
Prototypes to the nonlinear Zakharov-Kuznetsov Equation with Power Law Nonlinearity.
Nonlinear Science Letters A: Mathematics, Physics and Mechanics, 7(2), 67-76, 2016.
A94. Haci Mehmet Baskonus, Hasan Bulut, New wave Behaviors of the System of
Equations for the Ion Sound and Langmuir Waves, Waves in Random and Complex Media,
26(4), 613-625, 2016, (SCI).
A95. Hasan Bulut and Haci Mehmet Baskonus, Regarding on the prototype solutions for the
nonlinear fractional-order biological population model, AIP Conference Proceedings 1738, 290004,
2016, (SCI-E).
A96. Haci Mehmet Baskonus, Zakia Hammouch, Toufik Mekkaoui and Hasan Bulut, Chaos
in the fractional order logistic delay system: Circuit realization and synchronization, AIP
Conference Proceedings, 1738, 290005, 2016, (SCI-E).
A97. Seyma Tuluce Demiray and Hasan Bulut, Dark Solitons of (N+1) –Dimensional
Nonlinear Evolution Equations, AIP Conference Proceedings 1738, 290006-(1-6), 2016,(SCI)
A98. Haci Mehmet Baskonus, Dilara Altan Koç, Hasan Bulut, Dark and New Travelling
Wave Solutions to the Nonlinear Evolution Equation, Optik- International Journal for Light
and Electron Optics, 127, 8043-8055, 2016. (SCI).
A99. Haci Mehmet Baskonus, Hasan Bulut, New Complex Exact Travelling Wave
solutions for the Generalized-Zakharov Equation with Complex Structures, An International
Journal of Optimization and Control: Theories & Applications (IJOCTA), 6(2), 141-150,
2016, [ULAKBIM].
14/53
A100. Zeynep Fidan Koçak, Hasan Bulut, Dilara Altan Koc, Haci Mehmet Baskonus,
Prototype traveling wave solutions of new coupled Konno-Oono equation, Optik-
International Journal for Light and Electron Optics, 127(22), 10786–10794, 2016. (SCI).
A101. Ibrahim E. Inan,Yavuz Ugurlu, Hasan Bulut, Auto-Bäcklund transformation for some
nonlinear partial differential equation, Optik- International Journal for Light and Electron
Optics, 127(22), 10780–10785, 2016. (SCI).
A102. Yusuf Pandir ,Seyma Tuluce Demiray,Hasan Bulut, A New Approach for some
NLDEs with variable coefficients Optik-International Journal for Light and Electron Optics
,Vol. 127(2016) , 11183-11190 pages, 2016. (SCI)
A103 .Hasan Bulut, Sibel Sehriban Atas and Haci Mehmet Baskonus, Some Novel Exponential
Function Structures to the Cahn-Allen Equation, Cogent Physics ,3:1240886 ,2016.
A104. Anna A. Sandulyak, Alexander V. Sandulyak, Hasan Bulut, Haci Mehmet Baskonus, Maria N.
Polismakova, Darya A. Sandulyak, Some Characteristic Properties of Analytical Method of Magnetic
Control of Ferroimpurities in Various Primary and Technological Media, 20th International
Conference on Circuits, Systems, Communications and Computers (CSCC 2016), MATEC Web of
Conferences -76, 02045 (2016)
A105. Hasan Bulut ,Tukur Abdulkadir Sulaiman ,Haci Mehmet Baskonus, New solitary and
optical wave structures to the Korteweg-de Vries equation with dual Power Law nonlinearity,
Opt Quant Electron, DOI: 10.1007/s11082-016.0831-4, 2016, (SCI).
A106. Hasan Bulut, Gülnur Yel, Haci Mehmet Baskonus, An Application Of Improved
Bernoulli Sub-Equation Function Method To The Nonlinear Time-Fractional Burgers
Equation, Turkish Journal of Mathematics and Computer Science, Vol 5, page 1-7, 2016.
A107. Haci Mehmet Baskonus, Hasan Bulut, Fethi Bin Muhammad Belgacem, Analytical
Solutions for Nonlinear Long-Short Wave Interaction Systems with Highly Complex
Structure, Journal of Computational and Applied Mathematics, Vol:312,257-266,2017, (SCI).
A108. Yusuf Gürefe, Yusuf Pandir, Tolga Aktürk and Hasan Bulut, Elliptic Function
Solutions For Some Nonlinear PDES in Mathematical Physics, Journal of Applied Analysis
and Computation, Vol:7 No:1,372-391,2017. (SCI).
A109. Yavuz Ugurlu, Ibrahim E. Inan, Hasan Bulut, Two new applications of tan f(xi/2)-
expansion method Optik- International Journal for Light and Electron Optics, 131, 539-546,
2017, (SCI).
15/53
A110. Seyma Tuluce Demiray, Hasan Bulut, Dark soliton solutions of Klein-Gordon-
Zakharov equation in (1+2) dimensions, AIP Conference Proc. 1798, 020032, 2017, (SCI-E).
A111. Seyma Tuluce Demiray, Hasan Bulut, New exact solutions for generalized Gardner
equation, Kuwait Journal of Science, 44(1),1-8, 2017, (SCI-E).
A112. Seyma Tuluce Demiray, Hasan Bulut, New soliton solutions of Davey-Stewartson
equation with power-Law nonlinearity, Opt Quant Electron, 49(2017),1-8, 2017, (SCI-E).
A-113. Seyma T. Demiray, Hasan Bulut, Soliton solutions of some nonlinear evolution
problems by GKM, Neural Comput & Applic, DOI 10.1007/s00521-017-2999-3,1-8, 2017.
(SCI)
A114. Hasan Bulut, Seyma Tuluce Demiray, New Soliton Solutions of the System of
Equations for The Ion Sound and Langmuir Waves, An International
Journal of Optimization and Control: Theories & Applications (IJOCTA) , 7(1), 42-49,
2017. (ULAKBİM)
A115. Hasan Bulut, Application of the Modified Exponential Function Method to The
Cahn-Allen Equation, AIP Conference Proc. 1798, 020033, 2017, (SCI-E).
A116. Devendra Kumar, Jagdev Singh and Haci Mehmet Baskonus and Hasan Bulut, An
Effective Computational Approach for Solving Local Fractional Telegraph Equations,
Nonlinear Science Letters A: Mathematics, Physics and Mechanics, 8(2), 200-206, 2017.
A117. Haci Mehmet Baskonus, Tukur Abdulkadir Sulaiman and Hasan Bulut, On the Novel
Wave Behaviors to the Coupled Nonlinear Maccari's System with Complex Structure, Optik-
International Journal for Light and Electron Optics, 131, 1036–1043, 2017, (SCI).
A118. Hasan Bulut, Tukur A. Sulaiman, Haci Mehmet Baskonus, Anna A. Sandulyak, New
Solitary and Optical Wave Structures to the (1+1)-Dimensional Combined KdV-mKdV
Equation, Optik: International Journal for Light and Electron Optics, 135, 327-336, 2017,
(SCI).
A119. Muharrem Tuncay Gencoglu, Haci Mehmet Baskonus, Hasan Bulut, Numerical
simulations to the nonlinear model of interpersonal Relationships with time fractional
derivative, AIP Conf. Proc. 1798, 1-9 (020103), 2017, (SCI-E).
16/53
A120. Hasan Bulut, Gülnur Yel, Haci Mehmet Baskonus, Novel Structure to the Coupled
Nonlinear Maccari's System by Using Modified Trial Equation Method, Advanced
Mathematical Models and Applications, 7(2), 14-19, 2017.
A121. Haci Mehmet Baskonus, Tukur Abdulkadir Sulaiman and Hasan Bulut, New Solitary
Wave Solutions to the (2+1)-Dimensional Calogero-Bogoyavlenskii-Schi and the Kadomtsev-
Petviashvili Hierarchy Equations, Indian Journal of Physics,91(10),1237–1243,2017,(SCI-E).
A122. Hasan Bulut, Tukur Abdulkadir Sulaiman, Fevzi Erdogan, Haci Mehmet Baskonus,
On the new hyperbolic and trigonometric structures to the simplified MCH and SRLW
equations, The European Physical Journal Plus, 132 (350), 1-12, 2017, (SCI).
A123. Haci Mehmet Baskonus, Dilara Altan Koç, Mustafa Gülsu, Hasan Bulut, New wave
simulations to the (3+1)-dimensional modified Kdv-Zakharov-Kuznetsov equation, AIP
Conference Proceedings, 1863(1), 560085, 2017, (SCI-E).
A124. Haci Mehmet Baskonus, Gülnur Yel, Hasan Bulut, Novel wave surfaces to the
fractional Zakharov-Kuznetsov-Benjamin-Bona-Mahony equation, AIP Conference
Proceedings, 1863(1), 560084, 2017, (SCI-E).
A125. Gülnur Yel, Haci Mehmet Baskonus, Hasan Bulut, Novel archetypes of new coupled
Konno–Oono equation by using sine–Gordon expansion method, Optical and Quantum
Electronics, 49(285), 1-10, 2017, (SCI).
A126. Asif Yokus, Haci Mehmet Baskonus, Tukur Abdulkadir Sulaiman, Hasan Bulut,
Numerical simulation and solutions of the two-component second order KdV evolutionary
system, Numerical Methods for Partial Differential Equations, 2017;00: 1–17.
https://doi.org/10.1002/num.22192, 2017, (SCI-E).
17/53
A127. Hasan Bulut, Sibel Sehriban Atas, Haci Mehmet Baskonus, Some Novel Exponential
and Complex Structural Properties of the Fisher Equation Arising in Mathematical
Bioscience, ITM Web of Conferences, 13(01017), 1-8, 2017, (SCI-E).
DOI: https://doi.org/10.1051/itmconf/20171301017
A128. Hasan Bulut, Betul Demirdag, Haci Mehmet Baskonus, Regarding on The Novel
Forms of the (3+1)-Dimensional Kadomstev-Petviashvili Equation, ITM Web of
Conferences,13(01018),1-6,2017,(SCI-E).DOI: https://doi.org/10.1051/itmconf/20171301018
A129. Hasan Bulut, Tukur Abdulkadir Sulaiman, Haci Mehmet Baskonus, On the New
Soliton and Optical Wave Structures to Some Nonlinear Evolution Equations, The European
Physical Journal Plus, Accepted, 2017, (SCI).
A130. Hasan Bulut, Tukur Abdulkadir Sulaiman, Haci Mehmet Baskonus, Tugba Yazgan,
Novel Hyperbolic Behaviors to Some Important Models Arising in Quantum Science, Optical
and Quantum Electronics, Accepted, 2017, (SCI).
B. Articles published in the International Conferences and Symposiums:
B1.Kaya, D. And Bulut, H., “On Numerical Comparison of Decomposition Method and
Finite Difference Method for an Elliptic P.D.E”, IstTurkish World Mathematics Symposium,
29 June-2 July 1999, FiratUniversity, Elazig / Turkey.
B2. Bulut, H., “Comparison Solution of Coupled Viscous Burgers Equation by The AGE
Method with AD Method”, IIstTurkish World Mathematics Symposium, 4-7 July 2007,
Sakarya University, Sakarya / Turkey.
B3. Bulut, H,. and Inc M., ‘A comparison between the Homotopy perturbation Method and
Adomian Decomposition Method for a Generalized Fitzhugh-Nagumo Equation with Initial
Condition’, The Third Congress of The World Mathematical Society Of Turkic Countries, 30
June-4 July 2009, Kazakistan.
18/53
B4. Hasan BULUT, H. Mehmet BASKONUS and Seyma TULUCE, The Solutions of
Partial Differential Equations with Variable Coefficient by Sumudu Transform Method,
(ICNPAA 2012) World Congress: 9th International Conference On Mathematical Problems
In Engineering, Aerospace And Sciences, 10 –14 July 2012, Vienna, Austria.
B5. Hasan BULUT, Seyma TULUCE and H Mehmet BASKONUS, The Solutions of Initial
Value Problems by Sumudu Transform Method, International Conference on Mathematical
Analysis, Differential Equations and Their Applications, 04-09 September 2012, Mersin,
Turkey.
B6. Hasan BULUT, Seyma TULUCE and H. Mehmet BASKONUS, The implemented of
variational iteration method to nonlinear fractional differential equation systems, 4th
International Conference On Mathematical and Computational Applications (ICMCA 2013),
11-13 June 2013, Manisa, Turkey.
B7. Hasan BULUT, Fethi Bin Muhammad Belgacem, Haci Mehmet BASKONUS,
Fractional partial differential equation systems solutions by adomian decomposition method
implementation, 4th International Conference On Mathematical and Computational
Applications (ICMCA 2013), 11-13 June 2013, Manisa, Turkey.
B8. Hasan Bulut, Yusuf Pandir, Haci Mehmet Baskonus, Application of the Extended Trial
Equation Method to the Fractional Rosenau–HymanEquation, International Conference on
Applied Analysis and Mathematical Modelling (ICAAMM 2013), 2-5 June 2013, Istanbul,
Turkey.
B9. Hasan Bulut, Yusuf Pandir, Seyma TULUCE, Exact Solutions of the Zakharov-
Kuznetsov and Zakharov-Kuznetsov-BBMequations by using extended trial equation method,
International Conference on Applied Analysis and Mathematical Modelling (ICAAMM 2013),
2-5 June 2013, Istanbul, Turkey.
B10. Hasan Bulut, Yusuf Pandir, Modified trial equation method to the nonlinear fractional
Sharma–Tasso–Olever equation, 2nd International Conference on Pure and Applied
Mathematics (ICPAM 2013), 20-21 July 2013, Moskov, Rusia.
B11. Hasan Bulut, Yusuf Pandir, and Haci Mehmet Baskonus, Symmetrical Hyperbolic
Fibonacci Function Solutions of Generalized Fisher Equation with Fractional Order,
International Conference of Numerical Analysis and Applied Mathematics 2013 (ICNAAM
2013), 21-27 September 2013, Rhodes/Greece.
B12. Hasan BULUT and H. Mehmet BASKONUS, Oscillations of solutions of initial value
problems for parabolic equations by the homotopy perturbation method, Bulgarian-Turkish-
Ukrainian Scientific Conference, Mathematical Analysis, Differential Equations And Their
Applications, September 15-20, 2010, Bulgaria.
19/53
B13. Hasan BULUT and H. Mehmet BASKONUS, Numerical Solution Study On Kdv
Equation, The Burgers Equation And The K(2,2) Equation With Homotopy Perturbation
Method, The 3rd International Symposium on Nonlinear Dynamics, 25-28 September 2010,
Shanghai.
B14. H. Bulut, H. M. Baskonus, S. Tuluce, Application of the Homotopy Perturbation
Method for nonlinear (3+1)-Dimensional Breaking Soliton Equation, The 4th Congress of the
Turkic World Mathematical Society (TWMS), 1-3 July 2011, Baku/Azerbaijan.
B15. H. M. Baskonus, H. Bulut, The Fractional Adams-Bashfort-Moulton Method for Linear
and Nonlinear Fractional Ordinary Differential Equation, International Conference on
Nonlinear Differential and Difference Equations (ICNDDDE), 27-30 May 2014, Side-Turkey.
B16. S. Tuluce Demiray, Gonca Onargan, H. Bulut, , , An Application of Generalized Tanh
Function Method for The Sixth-Order Boussinesq Equation and (1+1)-Dimensional
Dispersive Long Wave Equation, The V Congress of the Turkic World Mathematical Society
(TWMS), 5-7 July 2014, Kırgızistan.
B17. S. Tuluce Demiray, Yusuf Pandir and Hasan Bulut, The Investigation of Exact
Solutions of NonlinearTime-Fractional Klein-Gordon Equation by Using Generalized
Kudryashov Method, (ICNPAA 2014) World Congress: 10th International Conference On
Mathematical Problems In Engineering, Aerospace And Sciences, 15 –18 July, 2014 Narvik,
Narway.
B18. Hasan Bulut, Tolga Akturk, Yusuf Gurefe, Traveling wave solutions of the (N + 1)-
dimensionalsine-cosine-Gordon equation, (ICNPAA 2014) World Congress: 10th
International Conference On Mathematical Problems In Engineering, Aerospace And
Sciences, 15 –18 July, 2014 Narvik, Narway.
B19. Zeynep Fidan Kocak, Hasan Bulut, Gulnur Yel, The Solution of Fractional Wave
Equation by using Modified Trial Equation Method and Homotopy Analysis Method ,
(ICNPAA 2014) World Congress: 10th International Conference On Mathematical Problems
In Engineering, Aerospace And Sciences, 15 –18 July, 2014 Narvik, Narway.
B20. Hasan Bulut, Yusuf Pandir and Haci Mehmet Baskonus, On the exact solutions of high
order wave equations of KdV type (I), (ICNPAA 2014) World Congress: 10th International
Conference On Mathematical Problems In Engineering, Aerospace And Sciences, 15 –18
July, 2014 Narvik, Narway.
B21. Hasan Bulut, Yusuf Pandir and Seyma Tuluce Demiray, Exact Solutions of Time-
Fractional KdV Equations by Using Generalized Kudryashov Method, 3nd International
Conference on Pure and Applied Mathematics (ICPAM 2014), 18-19 July 2014, Madrid,
Spain.
20/53
B22. Haci Mehmet Baskonus, Hasan Bulut, Yusuf Pandir, On The Numerical Solution of
Nonlinear Time –Fractional Generalized Burgers Equation by Homotopy Analysis Method
and Modified Trial Equation Method, 3nd International Conference on Pure and Applied
Mathematics (ICPAM 2014), 18-19 July 2014, Madrid, Spain.
B23. Hasan Bulut, Yusuf Pandir, and Haci Mehmet Baskonus, Symmetrical Hyperbolic
Fibonacci Function Solutions of Generalized Fisher Equation with Fractional Order,
International Conference of Numerical Analysis and Applied Mathematics 2013 (ICNAAM
2013), 21-27 September 2013, Rhodes/Greece.
B24. Hasan Bulut, Tolga Aktürk, and Yusuf Gürefe, An Application of The New Function
Method to The Generalized Double Sinh-Gordon Equation, International Conference of
Numerical Analysis and Applied Mathematics 2014 (ICNAAM 2014), 22-28 September 2014,
Rhodes/Greece.
B25. Seyma Tuluce Demiray, Yusuf Pandir and Hasan Bulut, The Analysis of The Exact
Solutions of The Space Fractional Coupled KD Equations, International Conference of
Numerical Analysis and Applied Mathematics 2014 (ICNAAM 2014), 22-28 September 2014,
Rhodes/Greece.
B26. Haci Mehmet Baskonus, Hasan Bulut, Fethi Bin Muhammad Belgacem, On Some
New Exact Solutions of Special Type of the Nonlinear Dodd–Bullough–Mikhailov Equation,
3rd International Conference On Mathematical, Computational and Statistical Sciences
(MCSS '15), pp:76-85, Dubai, United Arab Emirates, February 22-24, 2015.
B27. Hasan Bulut, Fethi Bin Muhammad Belgacem, Haci Mehmet Baskonus, Some New
Analytical Solutions for the Nonlinear Time-Fractional KdV-Burgers-Kuramoto Equation,
3rd International Conference On Mathematical, Computational and Statistical Sciences
(MCSS '15), pp:118-129, Dubai, United Arab Emirates, February 22-24, 2015.
B28. Fethi Bin Muhammad Belgacem, Hasan Bulut, Haci Mehmet Baskonus, Variational
Iteration Method for Hyperchaotic Nonlinear Fractional Differential Equations Systems, 3rd
International Conference On Mathematical, Computational and Statistical Sciences (MCSS
'15), pp:445-453, Dubai, United Arab Emirates, February 22-24, 2015.
B29. Haci Mehmet Baskonus, Hasan Bulut, On some new complex analytical solutions for
the nonlinear long short-wave interaction system with complex structure, The International
Conference “Mathematical and Computational Modeling in Science and Technology”
(ICMCMST’2015), İzmir/ Turkey, 02-07 August 2015.
B30. Haci Mehmet Baskonus, Hasan Bulut and Mirac Kayhan, Regarding Analytical
Prototype Studies For The Generalized Nonlinear Pochhammer-Chree Equation, International
Conference on Pure and Applied Mathematics (ICPAM 2015), Van/ Turkey, 25-28 August,
2015.
21/53
B31. Hasan Bulut and Haci Mehmet Baskonus, Regarding Hyperbolic Prototype Solutions
For Some Nonlinear Fractional Partial Differential Equations, The 5th International
Conference on Control and Optimization with Industrial Applications, Bakû, Azerbaijan, 27-
29 August 2015.
B32. H. Bulut, T. Akturk, Y. Gurefe, An application of the new function method to nonlinear
partial differential equations, The 5th International Conference on Control and Optimization
with Industrial Applications, Bakû, Azerbaijan, 27-29 August 2015.
B33. Hasan Bulut and Haci Mehmet Baskonus, Regarding on the Prototype Solutions for the
Nonlinear Fractional-Order Biological Population Model, International Conference of
Numerical Analysis and Applied Mathematics 2015 (ICNAAM 2015), Rhodes,
Greece, 23-29 September 2015.
B34. Haci Mehmet Baskonus, Zakia Hammouch, Toufik Mekkaoui and Hasan Bulut, Chaos
in the Fractional Order Logistic Delay System: Circuit Realization and
Synchronization, International Conference of Numerical Analysis and Applied Mathematics
2015 (ICNAAM 2015), Rhodes, Greece, 23-29 September 2015.
B35. Seyma Tuluce Demiray and Hasan Bulut, Dark Solitons of (N+1) –Dimensional
Nonlinear Evolution Equations, International Conference of Numerical Analysis and Applied
Mathematics 2015 (ICNAAM 2015), Rhodes, Greece, 23-29 September 2015
B36. Sakar. M.G,Erdogan .F,H. Bulut, , Improving Homotopy Analysis Method with
Rresidual Error Function For Neutral Functional-Differential Equation with Proportional
Delays, Mathematical Analysis Differential Equations and Their Applications (MADEA-7), 1-
08-13 September 2015, Baku/Azerbaijan.
B37. Zeynep Fidan Koçak, Hasan Bulut, Haci Mehmet Baskonus and Dilara Altan Koc,
Prototype Traveling Wave Solutions of New Coupled Konno-Oono Equation,1st International
Symposium on Computational Mathematics and Engineering Sciences, Errichidia/Morocco,
03-06 March 2016.
B38. Dilara Altan Koç, Haci Mehmet Baskonus, Hasan Bulut, Dark and New Travelling
Wave Solutions to the Nonlinear Evolution Equation, 1st International Symposium on
Computational Mathematics and Engineering Sciences, Errichidia/Morocco, 03-06 March
2016.
22/53
B39. Haci Mehmet Baskonus, Hasan Bulut, On the Complex Analytical Solutions for the
Fractional Nonlinear Double sinh-Poisson Equation, 1st International Symposium on
Computational Mathematics and Engineering Sciences, Errichidia/Morocco, 03-06 March
2016.
B40. Hasan Bulut, Haci Mehmet Baskonus, New complex hyperbolic function solutions for
the (2+1)-dimensional dispersive long water–wave system, 1st International Symposium on
Computational Mathematics and Engineering Sciences, Errichidia/Morocco, 03-06 March
2016.
B41. Devendra Kumar, Jagdev Singh and Haci Mehmet Baskonus and Hasan Bulut,
Analytical Solutions for Local Fractional Telegraph Equations, 1st International Symposium
on Computational Mathematics and Engineering Sciences, Errichidia/Morocco, 03-06 March
2016.
B42.Seyma Tuluce Demiray and Hasan Bulut, New Exact Solutions of the Coupled sine-
Gordon Equations, 1st International Symposium on Computational Mathematics and
Engineering Sciences (CMES 2016), Errachidia/Morocco, 03-06 March 2016.
B43. Seyma Tuluce Demiray and Hasan Bulut, Dark Soliton Solutions of Coupled Higgs
Equation and Nizhnik-Novikov-Veselov System, 1st International Symposium on
Computational Mathematics and Engineering Sciences (CMES 2016), Errachidia/Morocco,
03-06 March 2016.
B44. H. Bulut, T. Akturk, Y. Gurefe, An application of the new function method to
nonlinear partial differential equations, The 5th International Conference on Control and
Optimization with Industrial Applications, Bakû, Azerbaijan, 27-29 August 2015.
B45. T. Akturk, Y. Gurefe, K. Akarbulut, H. Bulut, An Application of CRE Method to Find
New Interactions Among Waves, The 1th International Conference on Computational
Mathematics & Engineering Sciences, Errachidia/Morocco, 3-6 March 2016.
B46. Haci Mehmet Baskonus, Dilara Altan Koç, Hasan Bulut, New Dark Soliton Structures
to the Newell-Whitehead Equation, International Conference on Mathematics and
Mathematics Education (ICMME-2016), Elazig/Turkey,12-14 May 2016.
23/53
B47. Hasan Bulut, Atas Sibel Sehriban, Haci Mehmet Baskonus, Some Novel Exponential
Function Structures to the Cahn-Allen Equation, International Conference on Mathematics
and Mathematics Education (ICMME-2016), Elazig/Turkey,12-14 May 2016.
B48. Hasan Bulut, Yel Gülnur, Haci Mehmet Baskonus, An Application of Improved
Bernoulli Sub-Equation Function Method To The Nonlinear Time-Fractional Burgers
Equation, International Conference on Mathematics and Mathematics Education (ICMME-
2016), Elazig/Turkey,12-14 May 2016.
B49. Seyma Tuluce Demiray, Hasan Bulut, New Soliton Solutions of Davey-Stewartson
Equation with Power-Law Nonlinearity, International Conference on Mathematics and
Mathematics Education (ICMME-2016), Elazig/Turkey,12-14 May 2016.
B50. İ. Onur Kıymaz*; Hasan Bulut, A new generalization of second Appell hypergeometric
function F2, International Conference on Mathematics and Mathematics Education (ICMME-
2016), Elazig/Turkey,12-14 May 2016.
B51. Muharrem Tuncay Gencoglu, Haci Mehmet Baskonus, Hasan Bulut, Numerical
simulations to the nonlinear model of interpersonal Relationships with time fractional
derivative, International Conference in Nonlinear Problems in Aviation and Aerospace
(ICNPAA Congress 2016), 05-08 July 2016, La Rochelle/France, 2016.
B52. Hasan Bulut, Application of the Modified Exponential Function Method to The Cahn-
Allen Equation, International Conference in Nonlinear Problems in Aviation and Aerospace
(ICNPAA Congress 2016), 05-08 July 2016, La Rochelle/France, 2016.
B53. Haci Mehmet Baskonus, Hasan Bulut, Gulnur Yel, Regarding complex and exponential
behaviours to the nonlinear space-time fractional telegraph equation, International Conference
on Applied Mathematics and Analysis (ICAMA 2016), Atılım University, Ankara/Turkey,
July 11-13, 2016.
B54. Anna A. Sandulyak, Alexander V. Sandulyak, Hasan Bulut, Haci Mehmet Baskonus,
Maria N. Polismakova, Darya A. Sandulyak, Some Characteristic Properties of Analytical
24/53
Method of Magnetic Control of Ferroimpurities in Various Primary and Technological
Media, 20th International Conference on Circuits, Systems, Communications and
Computers (CSCC 2016), / Greece, July 14-17, 2016.
B55.Ibrahim E.Inan, Yavuz Uğurlu, Hasan Bulut, Auto-Bäcklund transformation for some
nonlinear partial differential equation,, 2. International Conference on Analysis and Its
Applications (ICAA 2016), Ahievren University, Kırşehir/Turkey, July 12-15, 2016.
B56. Haci Mehmet Baskonus, Gülnur Yel, Hasan Bulut, New Exponential Wave Behaviors
to the Fractional Zakharov-KuznetsovBenjamin-Bona-Mahony Equation, International
Conference of Numerical Analysis and Applied Mathematics 2016 (ICNAAM 2016), Rhodes,
Greece, 19-25 September 2016.
B57. Haci Mehmet Baskonus, Dilara Altan Koç, Mustafa Gülsu, Hasan Bulut, New wave
simulations to the (3+1)-dimensional Modified KdV-ZakharovKuznetsov Equation,
International Conference of Numerical Analysis and Applied Mathematics 2016 (ICNAAM
2016), Rhodes, Greece, 19-25 September 2016.
B58. Hasan Bulut and Tukur Abdulkadir Sulaiman ,On The New Hyperbolic Function
Solutions to the (2+1)-dimensional BKK Systems, 6.International Youth Sciences Forum ,
Lviv, Ukraine, 24-26 November 2016.
B59. Haci Mehmet Baskonus, Hasan Bulut, Miraç Kayhan, Some Wave Simulation
Properties to the (3+1) Dimensional Kadomtsev-Petviashvili Equation, International
Workshop on Mathematical Methods In Engineering, Cankaya University, Ankara, Turkey
April 27-29, 2017.
B60. Haci Mehmet Baskonus, Hasan Bulut, Tukur Abdulkadir Sulaiman, Investigation of
Various Travelling Wave Solutions to the Extended (2+1)-Dimensional Quantum ZK
Equation, International Conference on Mathematics and Mathematics Education, (ICMME-
2017), Harran University, Sanliurfa, Turkey, 11-13 May 2017.
25/53
B61. Gülnur Yel, Haci Mehmet Baskonus, Hasan Bulut, Novel Structure To The Coupled
Nonlinear Maccari's System by using Modified Trial Equation Method, The
Second International Conference on Computational Mathematics and Engineering
Sciences (CMES2017), Istanbul, Turkey, 20-22 May, 2017.
B62. Haci Mehmet Baskonus, Tukur Abdulkadir Sulaiman, Hasan Bulut, New Solitary
Wave Solutions to the (2+1)-Dimensional Calogero-Bogoyavlenskii-Schi and the Kadomtsev-
Petvıashvılı Hierarchy Equations, The Second International Conference on Computational
Mathematics and Engineering Sciences (CMES2017), Istanbul, Turkey, 20-22 May, 2017.
B63. Hasan Bulut, Sibel Sehriban Atas, Haci Mehmet Baskonus, Some Novel Exponential
and Complex Structural Properties of the Fisher Equation Arising in Mathematical
Bioscience, The Second International Conference on Computational Mathematics and
Engineering Sciences (CMES2017), Istanbul, Turkey, 20-22 May, 2017.
B64. Hasan Bulut, Tukur Abdulkadir Sulaiman, Haci Mehmet Baskonus, Tugba Yazgan,
Novel Hyperbolic Behaviors to Some Important Models Arising in Quantum Science, The
Second International Conference on Computational Mathematics and Engineering
Sciences (CMES2017), Istanbul, Turkey, 20-22 May, 2017.
B65. Hasan Bulut, Betül Demirdag, Haci Mehmet Baskonus, Regarding on the Novel Forms
Of The (3+1)-Dimensional Kadomtsev-Petviashvili Equation, The Second International
Conference on Computational Mathematics and Engineering
Sciences (CMES2017), Istanbul, Turkey, 20-22 May, 2017.
C. International Books Chapters Edited
C1. Haci Mehmet Baskonus, Fethi Bin Muhammad Belgacem, Hasan Bulut, Solutions of
Nonlinear Fractional Differential Equations Systems through an Implementation of the
26/53
Variational Iteration Method, Fractional Dynamics, De Gruyter, 333-342, 2015,
ISBN (Online): 9783110472097; DOI (Chapter): 10.1515/9783110472097-020; DOI (Book): 10.1515/9783110472097.
Carlo Cattani, Hari M. Srivastava, Xiao-Jun Yang (Editors.)
Fractional Dynamics
© 2015 Walter de Gruyter GmbH, Berlin/Boston
Cover image:
É Printed on acid-free paper
Printed in Germany
www.degruyter.com
D. Articles Published in the National Referee Journals
D1. Kaya, D., Bulut, H. and İnç, M.,“On the Solution of Oscillatory Problems by the
Decomposition Method”, F.Ü. Fen ve Müh Bil Dergisi, 12 (2), 229-234 (2000).
D2. İnç, M.,Ergüt, M. and Bulut, H.,“On Approximate Solutions of The Diffusion and
Convection-Diffusion Equations”, F.Ü. Fen ve Müh Bil Dergisi, 17 (1), 78-86, (2005).
D3. Bektaş, M., Bulut, H. and Ergüt, M., “Geometric Interpretations of The Klein-Gordon
Equation and Solution of The Equation By The Adomian Decomposition Method”,F.Ü. Fen
ve Müh Bil Dergisi, 16 (3), 411-423, (2004).
D4. Kaya, D. and Bulut, H.,“On a Comparison Between Decomposition Method and One –
Step Methods For Nonlinear Initial Value Problems”,F.Ü. Fen ve Müh Bil Dergisi, 12 (1),
299-305, (2000).
D5. Kaya, D. and Bulut, H.,“On a Numerical Comparison of Decomposition Method and
Finite Difference Method for an Elliptic P.D.E”,F.Ü. Fen ve Müh Bil Dergisi, 11 (3), 285-
294, (1999). FÜAF Proje no: 346
D6. Bulut H. and Inc M., “A comparison between the Homotopy perturbation Method and
Adomian Decomposition Method for a Generalized Fitzhugh-Nagumo Equation with Initial
Condition”, Turkish Journal of Science&Technology, 5(2), 69-77, (2010).
27/53
D7. Inc M. and Bulut H., “A comparison between the Variational Iteration Method and
Adomian Decomposition Method for Kuramo-Sivashinsky Equation with Initial
Condition”,Turkish Journal of Science&Technology, 5(2), 85-92, (2010).
E. Articles submited in the National Conferences and Symposiums:
E1. Kaya, D., Bulut, H. and İnç, M., “Numerical Study of a Klein-Gordon Equation by the
Adomian’s Decomposition Method”,XII.Ulusal Matematik Sempozyumu, 6-10 Eylül 1999,
İnönü Üniversitesi, Malatya.
E2.Bulut, H. and Ergut, M., “Decomposition Method For The Solution Of The Nonlinear
Stochastic Differential Equations”,Türk Fizik Derneği 19.Fizik Kongresi, 26-29 Eylül 2000,
Fırat Üniversitesi , Elazığ.
E3.Bulut, H. and Ergut, M., “The Numerical Solution of Multidimensional Partial
Differential Equations by The Decomposition Method”,Türk Matematik Derneği XV.Ulusal
Matematik Sempozyumu, 4-7 Eylül 2002, Mersin Üniversitesi, Mersin.
E4.Bektaş, M.,Bulut, H. and Ergüt, M., “Geometric Interpretations of The Klein-Gordon
Equation and Solution of The Equation By The Adomian Decomposition Method”, I
Geometri Sempozyumu, 3- 4 Temmuz 2003, Fırat Üniversitesi, Elazığ.
E5.İnç, M.,Ergüt, M. and Bulut, H., “On Approximate Solutions of The Diffusion and
Convection-Diffusion Equations”,XV.Ulusal Matematik Sempozyumu, 10-12 Eylül 2003,
Yüzüncü Yıl Üniversitesi, VAN.
E6.İnç, M.,Bektaş, M., Ergüt, M., Bulut, H., “Geometrical Interpretation and Approximate
Solution of The Sine-Gordon Equation”, III Geometri Sempozyumu, 4- 6 Temmuz 2005,
Osmangazi Üniversitesi, Eskişehir.
E7.İnç, M. and Bulut, H.,“A Comparison between The Variational Iteration Method and
Adomian Decomposition Method for Kuramoto-Sivashinsky Equations with initial
condition”,III.Ankara Matematik Günleri Sempozyumu, 22-23 Mayıs 2008,Ankara
Üniversitesi, Ankara
E8. Bulut, H, Baskonus, H. M.,Özgen,H.Hüseyin, ‘On The Geometric Interpretations Of The
Klein-Gordon Equation And Solution Of The Equation By The Homotopy Perturbation
Method’. National Symposium 8th Geometry, Antalya, Türkiye. (2010)
E9. Bulut, H, Baskonus, H. M., Tolga Akturk, ‘Geometrical Interpretation and A
Comparative Study Between Three Different Methods For Solving The Non-Lineer Kdv
Equation’. National Symposium 8th Geometry, Antalya, Turkey. (2010)
E10. Bulut, H and Baskonus, H. M., ‘Numerical Solution Study On The Nonlinear
Benjamin–Bona–Mahony Equation With Homotopy Perturbation Method’, 5th Ankara
Mathematics Days, Tobb, Ankara, Turkey. (2010)
28/53
E11. Hasan Bulut, H. Mehmet BASKONUS and Seyma TULUCE, The solutions of
homogenous and nonhomogeneous linear fractional differential equations by variational
iteration method, National Conference on 11. Mathematical Symposium, 19-21Eylül,
Samsun, TURKEY, 2012.
E12. Hasan Bulut, Hacı Mehmet BAŞKONUŞ ve Burcu BAYDEMİR, Kısmi Diferansiyel
Denklemlerin Sumudu Dönüşümü Ve Homotopi Pertürbasyon Metoduyla Çözümü, National
Conference on 13. Mathematical Symposium 23-25 Mayıs, Hacettepe Üniversitesi, Ankara,
TÜRKİYE, 2013.
E13. Hasan Bulut, Seyma TULUCE ve Miraç KAYHAN, Sonlu Farklar Metodunu
Kullanarak Zaman Kesirli Difüzyon Denklemlerinin Çözümü, National Conference on 12.
Mathematical Symposium, 23-25 Mayıs, Hacettepe Üniversitesi, Ankara, TÜRKİYE, 2013.
E14. Hasan Bulut, Eren Cüvelek and Dilara Gizem Emir, The solutions of The Time
fractional Fifth-Order Kdv equation by using Homotopy Analysis Method, National
Conference on 13. Mathematical Symposium, 15-17 Mayıs, Karabük, TURKEY, 2014
E15. Z.Körpinar, M.Tuz, Hasan Bulut, Genelleştirilmiş Riccati Denklemi Dönüşümü ve
HPM ile Drinfeld-Sokolov-Wilson Denklem Sisteminin Çözümleri, National Conference on
13. Mathematical Symposium, 15-17 Mayıs, Karabük, TURKEY, 2014
E16. Hacı Mehmet Başkonuş, Hasan Bulut ve Dilara Gizem Emir, Doğrusal Olmayan
Vakhnenko-Parkes Denkleminin Bernoulli Alt-Denklem Fonksiyon Metoduyla Analitik
Çözümleri, 14. Matematik Sempozyumu “Kanatlandıran Matematik”, Niğde Üniversitesi,
Niğde, Türkiye, 14-16 Mayıs 2015.
E17. Hasan Bulut, Hacı Mehmet Başkonuş ve Eren Cüvelek, Simetrik Uzun Dalga
Denkleminin Genişletilmiş Deneme Denklem Metoduyla Analitik Çözümleri, 14. Matematik
Sempozyumu “Kanatlandıran Matematik”, Niğde Üniversitesi, Niğde, Türkiye, 14-16 Mayıs
2015.
F. BOOKS
F1.Hasan Bulut,Teknik Eğitim Fak ve MYO için Temel ve Genel Matematik, Ertem Basım
ve Yayın Ltd. Şti., Kasım 2005
F2.Vedat Asil, Hasan Bulut, Essin Turhan, Yavuz Altın, Hıfsı Altınok, Fen ve Müh. Fak.
için Temel ve Genel Matematik1-2, Ertem Basım ve Yayın Ltd. Şti., Kasım 2006
29/53
G. REFEREES:
G1. Articles cited to the Number A1.
A1.Bulut, H. and İnç, M.,“A Two Step Method for The Numerical Integration of Stiff
Differential Equations”, Inter. J. Computer Math,73, 333-340, (1998). SCI-Expanded.
1- M. Inç, “Stabilised Fourth-Order Extended Double-Stride L-Stable Methods for
Numerical Solutions of Ordinary Differential Equations”, Applied Mathematics and
Computation, 2002.
2-
G2. Articles cited to the Number A2.
A2.Kaya, D. and Bulut, H.,“The Decomposition Method For Approximate Solution of a
Burgers Equations”. Bulletin of the Institute of Mathematica Academica,28 (1), 35-42,
(2000).
1- A. M. Wazwaz, “Partial Differential Equations Methods and Applications”, Gorter,
Steenwijk, The Netherlands, pp:1-457, 2002.
2-
G3. Articles cited to the Number A6.
A6. Evans, D.J. and Bulut, H.,“A new Approach to The Gas Dynamics Equations: An
Application of The Decomposition Method”, Inter. J. Computer Math, 79 (7), 817-822,
(2002). SCI-Expanded
1- R. Grzymkowski, M. Pleszczynski and D. Slota,“Comparing Adomian
Decomposition Method and The Runge-Kutta Method for Solutions of The Stefan
Problem”, Inter. J. Computer Math, Vol.83, no: 4, pp: 409-417, 2006.
2-
30/53
G4. Articles cited to the Number A7.
A7.Bulut, H.andEvans, D.J., “On The Solution of The Riccati Equation by The
Decomposition Method”, Inter. J. Computer Math, 79 (1), 103-109, (2002). SCI-Expanded
1- S. Abbasbandy, “A New Application of He’s Variational Iteration Method for
Quadratic Riccati Differential Equation by Using Adomian’s Polynomials”, Journal of
Computational and Applied Mathematics, Vol.207, pp: 59-63, 2007.
2- M. Gulsu and M. Sezer,“On The Solution of The Ricatti Equation By The Taylor
Matrix Method”, Applied Mathematics and Computation, Vol.176, pp: 414-421, 2006.
G5. Articles cited to the Number A11.
A11.Evans, D.J.,Ergüt,M. And Bulut, H.,“The Numerical Solution of Multidimensional
Partial Differential Equations by The Decomposition Method”, Inter. J. Computer Math, 80
(9),1189-1198, (2003). SCI-Expanded.
1- G. Oturanc, A. Kurnaz and Mehmet E. Kiris,“n-Dimensional Differential
Transformation Method for Solving PDEs”, Inter. J. Computer Math, Vol.82, no:3, pp:
369-380, 2005.
2-
G6. Articles cited to the Number A12.
A12.Bulut, H. And Evans, D.J.,“The Numerical Solution of The Telegraph Equation by The
Alternating Group Explicit(AGE)Method”, Inter. J. Computer Math,80 (10),1289-1297,
(2003). SCI-Expanded.
1- Qinghua Feng,“An Alternating Group Explicit Iterative Method for Solving Four-
order Parabolic Equations”, Applied Mathematical Sciences, Vol.2, no: 52, pp: 2591-
2595, 2008.
2- R. K. Mohanty,“New Unconditionally Stable Difference Schemes for The Solution of
Multi-Dimensional Telegraphic Equations”, International Journal of Computer
Mathematics, Vol.00, no: 0, pp: 1-11, 2008.
31/53
3-
G7. Articles cited to the Number A13.
A13.Bulut, H.,Ergüt, M., Asil, V.and Bokor, R., “Numerical Solution of a Viscous
İncompressible Flow Problem Through an Orifice by Adomian Decomposition Method”,
Applied Math and Computation,153, 733-741,(2004). SCI-Expanded.
1- HN Sweilam, MM Khader and FR Al-Bar,“On The Numerical Simulation of
Population Dynamics With Density Dependent Migrations And The Allee Effects”,
Journal of Physics Conference Series, Vol.96, 2008.
2- Q. Esmaili, A. Ramiar, E. Alizadeh and D. D. Ganji,“An Approximation of The
Analytical Solution of The Jeffery-Hamel Flow by Decomposition Method”, Physics
Letters A, Vol.372, no: 19, pp: 3434-3439, 2008.
3- Xueming Liu, “Fast Methods for Solving Nonlinearly Coupled Equations Describing
Fiber Amplifiers”, Applied Mathematics and Computation, Vol.172, pp:1018-1035,
2006.
4- R. Grzymkowski and D. Slota, “Stefan Problem Solved by Adomian Decomposition
Method”, Inter. J. Computer Math, Vol.82, no:7, pp: 851-856, 2005.
5- Najafi, M.,Taeibi-Rahni, M., Javadi, K., H. Hosseinzade, S, F.,“Approach to Analytic
Solution of Navier–Stokes Equation Utilizing Adomian Decomposition Method”, Jet
ImpingingFlow Application, WSEAS Transactions on Mathematics,Vol.3, no: 5, pp:
507-514, 2006.
6-
G8. Articles cited to the Number A14.
A14.Asil, V., Bulut, H., Evans, D.J., “On The Oscillatory Solutions of Nonlinear Hyperbolic
Differential Equations by The Decomposition Method”,Inter. J. Computer Math, 81 (5), 639-
645, (2004). SCI-Expanded.
1- M. Inç,“On Numerical Jacobi Elliptic Function Solutions of The (1+1) –Dimensional
Dispersive Long Wave Equation by The Decomposition Method”, Applied
Mathematics and Computation, Vol.173, no:1, pp: 372-382, 2006.
32/53
2-
G9. Articles cited to the Number A15.
A15.Asil, V.,Bulut, H.and Evans, D.J., “The Adomian Decomposition Method for the
approximate solution of Homogeneous Differential Equations with Dual Variable and Dual
Coefficients”, Inter. J. Computer Math, 82 (8), 977-986, (2005). SCI-Expanded.
1- G. Oturanc, A. Kurnaz and Y. Keskin,“A New Analitical Approximate Method for
The Solution of Fractional Differential Equations”, International Journal of Computer
Mathematics, Vol.85, no:1, pp:131-142, 2008.
2-
G10. Articles cited to the Number A 43.
A43. Hasan Bulut, Haci Mehmet Baskonus and Yusuf Pandir, The Modified Trial Equation
Method for Fractional Wave Equation and Time-Fractional Generalized Burgers Equation,
Abstract and Applied Analysis, Vol. 2013 (2013), 1-8 pages, 2013. (SCI)
1- Jacobs B. A. and Harley C., Two Hybrid Methods for Solving Two-Dimensional
Linear Time-Fractional Partial Differential Equations, Abstract and Applied
Analysis,1-25, March 10, 2014.
2- Ahmet Bekir, Ozkan Gulner, The -expansion method using modified Riemann–
Liouville derivative for some space-time fractional differential equations, Ain Shams
Engineering Journal, 5 (3), pp. 959-965, 2014.
3- Özkan Güner and Dursun Eser, Exact Solutions of the Space Time Fractional
Symmetric Regularized Long Wave Equation Using Different Methods, Advances in
Mathematical Physics, Volume 2014, Article ID 456804, 8 pages, 2014.
4- Seyma Tuluce Demiray, Yusuf Pandir, and Hasan Bulut, Generalized Kudryashov
Method for Time-Fractional Differential Equations, Abstract and Applied Analysis,
Volume 2014, Article ID 901540, 13 pages, 2014.
5- Hasan Bulut, Yusuf Pandir and Seyma Tuluce Demiray, Exact solutions of nonlinear
Schrodinger’s equation with dual power-law nonlinearity by extended trial equation
method, Waves in Random and Complex Media, pp:1-13, 2014.
33/53
6- Bekir, A., Aksoy, E., Güner, Ö., A generalized fractional sub-equation method for
nonlinear fractional differential equations, AIP Conference Proceeding, vol: 1611, 78-
83, 2014.
7- Cheng-shi Liu, Counterexamples on Jumarie’s two basic fractional calculus Formulae,
Commun Nonlinear Sci Numer Simulat, 22, (2015), 92–94.
8- Ahmet Bekir, Esin Aksoy, Application of the sub-equation method to some
differential equations of time fractional order, Journal of Computational and Nonlinear
Dynamics. Received July 28, 2014, Accepted manuscript posted October 16, 2014.
doi:10.1115/1.4028826.
9- Ahmet Bekir, Özkan Güner, Exact solutions of distinct physical structures to the
fractional potential Kadomtsev-Petviashvili equation, Computational Methods for
Differential Equations, 2(1), 26-36, 2014.
10- Ahmet Bekir, Özkan Güner, Analytical Approach for the Space-time Nonlinear Partial
Differential Fractional Equation, International Journal of Nonlinear Sciences and
Numerical Simulation,15(7-8), 463–470, 2014.
G11. Articles cited to the Number A 44.
A44. Hasan Bulut, Haci Mehmet Baskonus and Fethi Bin Muhammad Belgacem, The
Analytical Solutions of Some Fractional Ordinary Differential Equations By Sumudu
Transform Method,Abstract and Applied Analysis,Volume 2013, Article ID 203875, 6
pages,http://dx.doi.org/10.1155/2013/203875, 2013. (SCI)
1- Zakia Hammouch and Toufik Mekkaoui, Traveling-wave solutions of the Generalized
Zakharov Equation with time-space Fractional derivatives, Mathematics In
Engineering, Science And Aerospace, 2014.
2- Deshna Loonker and P. K. Banerji, Solution of Fractional Ordinary Differential
Equations by Natural Transform, International Journal of Mathematical Engineering
and Science, 2(12), 1-7, 2013.
3- Deshna Loonker and P. K. Banerji, On Tarig fractional differintegral transform on
distribution spaces, Pure and Applied Mathematics Letters, 2, 19-25, 2014.
4- Najeeb Alam Khan, Oyoon Abdul Razzaq, and Muhammad Ayyaz, On the solution of
fuzzy differential equations by Fuzzy Sumudu Transform, Nonlinear Engineering,
4(1), 49–60, 2015.
34/53
G12. Articles cited to the Number A 45.
A45. Fethi Bin Muhammad Belgacem, Hasan Bulut, Haci Mehmet Baskonus and Tolga
Akturk, Mathematical Analysis of Generalızed Benjamin And Burger Kdv Equations Via The
Extended Trial Equation Method, Journal of the Association of Arab Universities for Basic
and Applied Sciences, Vol. 16 (2014), 91-100 pages DOI: 10.1016/j.jaubas.2013.07.005,
2014.
1- Hasibun Naher and Farah Aini Abdullah, Further extension of the generalized and
improved (G/G)-expansion method for nonlinear evolution equation, Journal of the
Association of Arab Universities for Basic and Applied Sciences (2014) xxx, xxx–
xxx.
2- Zakia Hammouch and Toufik Mekkaoui, Traveling-wave solutions of the Generalized
Zakharov Equation with time-space fractional derivatives, Mathematics In
Engineering, Science And Aerospace, 2014.
3- M.G. Hafez, M. N. Alam and M. A. Akbar, Traveling wave solutions for some
important coupled nonlinear physical models via the coupled Higgs equation and the
Maccari system, Journal of King Saud University – Science, 2014.
4-
G13. Articles cited to the Number A50.
A50. Hasan BULUT, H Mehmet BASKONUS, Seyma TULUCE and Tolga AKTURK, A
Comparison between HPM and ADM for The Nonlinear Benjamin-Bona-Mahony Equation,
International Journal of Basic and Applied Sciences, 11(03), 146–157, 2011.
1. Fadhil H. Easif, Saad A. Manaa, Bewar A. Mahmood, Majeed A. Yousif, Variational
Homotopy Perturbation Method for Solving Benjamin-Bona-Mahony Equation,
Applied Mathematics, 6, 675-683, 2015.
35/53
G. REFEREES: HACI
G1. Articles cited to the Number A35.
A35. Hasan Bulut, Haci Mehmet Baskonus and Seyma Tuluce, Homotopy Perturbation
Sumudu Transform Method For Heat Equations, Mathematics In Engineering, Science And
Aerospace (MESA), 4(1), 49-60,2013.
1- Eltayeb A. Yousif, Sara H. M. Hamed, Solution of Nonlinear Fractional Differential
Equations Using the Homotopy Perturbation Sumudu Transform Method, Applied
Mathematical Sciences, 8(44), 2195 – 2210, 2014.
2- Sara H. M. Hamed, Eltayeb A. Yousif and Arbab I. Arbab, Analytic and Approximate
Solutions of the Space-Time Fractional Schrödinger Equations by Homotopy
Perturbation Sumudu Transform Method, Abstract and Applied Analysis, 2014,
Article ID 863015, 13 pages, 2014.
3- Seyma Tuluce Demiray, Hasan Bulut, and Fethi Bin Muhammad Belgacem, Sumudu
Transform Method for Analytical Solutions of Fractional Type Ordinary Differential
Equations, Mathematical Problems in Engineering, Article ID 131690, 8 pages, 2015.
4- Haci Mehmet Baskonus, Hasan Bulut, and Yusuf Pandir, On the Solution of Nonlinear
Time-Fractional Generalized Burgers Equation by Homotopy Analysis Method and
Modified Trial Equation Method, International Journal of Modeling and Optimization,
4(4), August 2014.
5- Md. Nur Alam, Fethi Bin Muhammad Belgacem, Exact Traveling Wave Solutions for
the (1 + 1)-Dimensional Compound KdVB Equation via the Novel (G'/G)-Expansion
Method, International Journal of Modern Nonlinear Theory and Application, 5, 28-39,
2016.
6-
G2. Articles cited to the Number A43.
36/53
A43. Hasan Bulut, Haci Mehmet Baskonus and Yusuf Pandir, The Modified Trial Equation
Method for Fractional Wave Equation and Time-Fractional Generalized Burgers Equation,
Abstract and Applied Analysis, Vol. 2013 (2013), 1-8 pages, 2013. (SCI)
1- Jacobs B. A. and Harley C., Two Hybrid Methods for Solving Two-Dimensional
Linear Time-Fractional Partial Differential Equations, Abstract and Applied
Analysis,1-25, March 10, 2014.
2- Ahmet Bekir, Ozkan Gulner, The G G -expansion method using modified
Riemann–Liouville derivative for some space-time fractional differential equations,
Ain Shams Engineering Journal, 5 (3), pp. 959-965, 2014.
3- Özkan Güner and Dursun Eser, Exact Solutions of the Space Time Fractional
Symmetric Regularized Long Wave Equation Using Different Methods, Advances in
Mathematical Physics, Volume 2014, Article ID 456804, 8 pages, 2014.
4- Seyma Tuluce Demiray, Yusuf Pandir, and Hasan Bulut, Generalized Kudryashov
Method for Time-Fractional Differential Equations, Abstract and Applied Analysis,
Volume 2014, Article ID 901540, 13 pages, 2014.
5- Hasan Bulut, Yusuf Pandir and Seyma Tuluce Demiray, Exact solutions of nonlinear
Schrodinger’s equation with dual power-law nonlinearity by extended trial equation
method, Waves in Random and Complex Media, pp:1-13, 2014.
6- Bekir, A., Aksoy, E., Güner, Ö., A generalized fractional sub-equation method for
nonlinear fractional differential equations, AIP Conference Proceeding, vol: 1611,
pp. 78-83, 2014.
7- Cheng-shi Liu, Counter examples on Jumarie’s two basic fractional calculus
Formulae, Commun Nonlinear Sci Numer Simulat, 22, (2015), 92–94.
8- Ahmet Bekir, Esin Aksoy, Application of the sub-equation method to some
differential equations of time fractional order, Journal of Computational and Nonlinear
Dynamics. Received July 28, 2014, Accepted manuscript posted October 16, 2014.
doi:10.1115/1.4028826.
9- Ahmet Bekir, Özkan Güner, Exact solutions of distinct physical structures to the
fractional potential Kadomtsev-Petviashvili equation, Computational Methods for
Differential Equations, 2(1), 26-36, 2014.
37/53
10- Ahmet Bekir, Özkan Güner, Analytical Approach for the Space-time Nonlinear Partial
Differential Fractional Equation, International Journal of Nonlinear Sciences and
Numerical Simulation,15(7-8), 463–470, 2014.
11- Ahmet Bekir, Özkan Güner and Burcu Ayhan, Exact solutions of some systems of
fractional differential-difference equations, Mathematical Methods in the Applied
Sciences, DOI: 10.1002/mma.3318, 2014.
12- Meryem Odabasi and Emine Misirli, A Note on the Solutions of the Nonlinear
Fractional Differential Equations, International Conference on Recent Advances in
Pure and Applied Mathematics (ICRAPAM 2014), 6-9 November 2014, Antalya,
Turkey189, 2014
13- Ahmet Bekir, Ozkan Güner, Ali H. Bhrawy, Anjan Biswas, Solving Nonlinear
Fractional Differential Equations Using Exp-Function and G G -Expansion
Methods, Romanian journal of physics, 60, 1-9, 2015.
14- Seyma Tuluce Demiray, Hasan Bulut, Some exact solutions of generalized Zakharov
system, Waves in Random and Complex Media, 2014
15- Meryem Odabasi and Emine Misirli, On the solutions of the nonlinear fractional
differential equations via the modified trial equation method, Mathematical Methods
in applied sciences, DOI: 10.1002/mma.3533, 2015. (SCI)
16- Özkan Güner, Ahmet Bekir, and Yusuf Pandir, Solving nonlinear space-time
fractional differential equations using the exp-function method, AIP Conference
Proceedings 1648, 370005 (2015); doi: 10.1063/1.4912594
17- Ahmet Bekir, Özkan Güner, Esin Aksoy, and Yusuf Pandır, Functional Variable
method for the nonlinear fractional differential equations, AIP Conference Proc. 1648,
730001 (2015); doi: 10.1063/1.4912955
18- Ozkan Guner, Ahmet Bekir and Halis Bilgil, A note on exp-function method
combined with complex transform method applied to fractional differential equations,
Advances in Nonlinear Analysis, DOI: 10.1515/anona-2015-0019, May 2015
19- Zeynep Fidan Kocak, Hasan Bulut and Gulnur Yel, The solution of fractional wave
equation by using modified trial equation method and homotopy analysis method, AIP
Conf. Proc. 1637, 504-512, 2014.
20- Ahmet Bekir and Adem C. Cevikel, A variety of exact solutions for the time fractional
Cahn-Allen equation, Eur. Phys. J. Plus, 130(146), 13 pages, 2015.
38/53
21- M. G. Hafez and Dianchen Lu, Traveling Wave Solutions for Space-Time Fractional
Nonlinear Evolution Equations, arXiv:1512.00715, 1-18, 2015.
22- Seyma Tuluce Demiray, Yusuf Pandir, Hasan Bulut, All Exact Travelling Wave
Solutions of Hirota Equation and Hirota-Maccari System, Optik, 127, 1848–1859,
2016. (SCI)
23- Seyma Tuluce Demiray, Yusuf Pandir and Hasan Bulut, New solitary wave solutions
of Maccari system, Ocean Engineering 103, 153–159, 2015. (SCI)
24- Yusuf Pandir and Ayse Yildirim, New exact solutions of the space-time fractional
potential Kadomtsev-Petviashvili (pKP) equation, AIP Conference Proceedings 1648,
370016 (2015); doi: 10.1063/1.4912605, 2015. (SCI)
25- Seyma Tuluce Demiray, Yusuf Pandir, and Hasan Bulut, The analysis of the exact
solutions of the space fractional coupled KD equations, AIP Conference Proceedings
1648, 370013 (2015); doi: 10.1063/1.4912602, 2015. (SCI)
26- Ozkan Guner, Singular and non-topological soliton solutions for nonlinear fractional
differential equations, Chin. Phys. B Vol. 24, No. 10 (2015) 100201, 2015. (SCI).
27- Melike Kaplan, Ahmet Bekir, Arzu Akbulut, Esin Aksoy, The modified simple
equation method for nonlinear fractional differential equations, Romanian Journal of
Physics, Volume 60, Number 9-10, 1374-1383, 2015. (SCI).
28- Byron A. Jacobs, High-Order Compact Finite Difference and Laplace Transform
Method for the Solution of Time-Fractional Heat Equations with Dirchlet and
Neumann Boundary Conditions, Numerical Methods for Partial Differential
Equations, DOI 10.1002/num.22046, 1098-2426, 2015. (SCI).
29- Esin Aksoy, Melike Kaplan, Ahmet Bekir, Exponential rational function method for
space–time fractional differential equations, Waves in Random and Complex Media,
DOI: 10.1080/17455030.2015.112503, 2016. (SCI).
30- Ozkan Guner and Ahmet Bekir, On the concept of exact solution for nonlinear
differential equations of fractional-order, Mathematical Methods in the Applied
Sciences, DOI: 10.1002/mma.3845, 2016. (SCI).
31- Ozkan Guner, Esin Aksoy, Ahmet Bekir, Adem C. Cevikel, Different methods for
(3+1)-dimensional space–time fractional modified KdV–Zakharov–Kuznetsov
equation, Computers and Mathematics with Applications, 2016. (SCI).
39/53
32- Ahmet Bekir, Ozkan Guner, Burcu Ayhan and Adem C. Cevikel, Exact Solutions for
Fractional Differential-Difference Equations by (G'/G)-Expansion Method with
Modified Riemann-Liouville Derivative. Advances in Applied Mathematics and
Mechanics, 8, pp 293-305 doi:10.4208/aamm.2014.m798, 2016.
33- Ozkan Guner and Ahmet Bekir, Bright and dark soliton solutions for some nonlinear
fractional differential equations, Chin. Phys. B, 25(3), 030203, 2016. (SCI).
34- Ahmet Bekir, Ozkan Guner, Esin Aksoy, Periodic and Hyperbolic Solutions of
Nonlinear Fractional Differential Equations, Applied and computational mathematics,
15(1):88-95, 2016. (SCI).
35- Melike Kaplan, Arzu Akbulut and Ahmet Bekir, Solving Space-Time Fractional
Differential Equations by Using Modified Simple Equation Method, Communications
in Theoretical Physics, 65(5), 563–568, 2016. (SCI).
36- Zhouzheng KANG, Infinite Sequence Solutions for Space-Time Fractional Symmetric
Regularized Long Wave Equation, Journal of Partial Differential Equations, 29(1),
48-58, 2016.
37- Khaled A. Gepreel, Taher A. Nofal and Nehal S. Al-Sayali, Direct method for solving
nonlinear strain wave equation in microstructure solids, International Journal of
Physical Sciences, 11(10), 121-131, 2016.
38- Yusuf Ali Tandogan and Necdet Bildik, Exact solutions of the time-fractional Fisher
equation by using modified trial equation method, AIP Conference Proceedings 1738,
290018 (1-6), 2016, (SCI-E).
G3. Articles cited to the Number A44.
A44. Hasan Bulut, Haci Mehmet Baskonus and Fethi Bin Muhammad Belgacem, The
Analytical Solutions of Some Fractional Ordinary Differential Equations By Sumudu
Transform Method, Abstract and Applied Analysis, Volume 2013, Article ID 203875, 6 pages,
2013. (SCI)
1- Zakia Hammouch and Toufik Mekkaoui, Traveling-wave solutions of the Generalized
Zakharov Equation with time-space Fractional derivatives, Mathematics In
Engineering, Science And Aerospace, 2014.
2- Deshna Loonker and P. K. Banerji, Solution of Fractional Ordinary Differential
Equations by Natural Transform, International Journal of Mathematical Engineering
and Science, 2(12), 1-7, 2013.
40/53
3- Deshna Loonker and P. K. Banerji, On Tarig fractional differ integral transform on
distribution spaces, Pure and Applied Mathematics Letters, 2, 19-25, 2014.
4- Seyma Tuluce Demiray, Hasan Bulut, and Fethi Bin Muhammad Belgacem, Sumudu
Transform Method for Analytical Solutions of Fractional Type Ordinary Differential
Equations, Mathematical Problems in Engineering, Article ID 131690, 8 pages, 2015.
5- Najeeb Alam Khan, Oyoon Abdul Razzaq, and Muhammad Ayyaz, On the solution of
fuzzy differential equations by Fuzzy Sumudu Transform, Nonlinear Engineering,
4(1), 49–60, 2015. (SCI)
6- Ahmad M. Alenezi and Fethi Bin Muhammad Belgacem, Sumudu transform based
treatment of Krawtchouk polynomials and their integral zeros, AIP Conference
Proceedings 1637, 1395 (2014); doi: 10.1063/1.4907306
7- M. Khalid, Mariam Sultana, Faheem Zaidi and Uroosa Arshad, Application of Elzaki
Transform Method on Some Fractional Differential Equations, Mathematical Theory
and Modeling, 5(1), 2015
8- H. M. Baskonus, H. Bulut, and Y. Pandir, On the Solution of Nonlinear Time-
Fractional Generalized Burgers Equation by Homotopy Analysis Method and
Modified Trial Equation Method, International Journal of Modeling and Optimization,
4(4), August 2014.
9- Ming-Feng Zhang, Yan-Qin Liu, and Xiao-Shuang Zhou, Efficient Homotopy
Perturbation Method For Fractional Non-Linear Equations Using Sumudu Transform,
Thermal Science, 19(4), 1167-1171, 2015.
10- Shrideh Khalaf Al-Omari, F. B. M. Belgacem, Quaternion space of Boehmians
connected with the Sumudu transform, Nonlinear Studies, 01/2015.
11- H. M. Srivastava, Minjie Luo, R. K. Raina, A New Integral Transform And Its
Applications, Acta Mathematica Scientia,35B(6), 1386–1400, 2015.
12- Fethi Bin Muhammad Belgacem, Rathinavel Silambarasan, A Distinctive Sumudu
transform and trigonometric functions, Journal of Computational and Applied
Mathematics, http://dx.doi.org/10.1016/j.cam.2015.12.036, 2016. (SCI)
13- Ilknur Koca, Abdon Atangana, Analysis of a Nonlinear Model of Interpersonal
Relationships with Time Fractional Derivative, Journal of Mathematical Analysis,
7(2), 1-11, 2016. (E-SCI).
41/53
14- Mostafa Eslami, Exact traveling wave solutions to the fractional coupled nonlinear
Schrodinger equations,Applied Mathematics and Computation, 285, 141–148, 2016,
(SCI).
15- Fırat Evirgen, Analyze the optimal solutions of optimization problems by means of
Fractional gradient based system using VIM, An International Journal of Optimization
And Control: Theories & Applications (IJOCTA), 6(2), 75-85, 2016.
16- F.B.M.Belgacem, E.H. Al-Shemas and R. Silambarasan, Sumudu computation of the
transient magnetic field in a lossy medium, Applied Mathematics & Information
Sciences (AMIS), 10(6), 1-9, 2016.
17- Jagdev Singh, Devendra Kumar and Juan J. Nieto, A Reliable Algorithm for a Local
Fractional Tricomi Equation Arising in Fractal Transonic Flow, Entropy, 18(6), 206,
2016. (SCI-E)
18- A. Coronel-Escamilla, J.F. Gómez-Aguilar, M.G. López-López, V.M. Alvarado-
Martínez, G.V. Guerrero-Ramírez, Triple pendulum model involving fractional
derivatives with different kernels Chaos, Solitons and Fractals, 91, 248–261, 2016,
(SCI).
19-
G4. Articles cited to the Number A45.
A45.Fethi Bin Muhammad Belgacem, Hasan Bulut, Haci Mehmet Baskonus and Tolga
Akturk, Mathematical Analysis of Generalized Benjamin And Burger Kdv Equations Via The
Extended Trial Equation Method, Journal of the Association of Arab Universities for Basic
and Applied Sciences, 16, 91–100, 2014.
1- Zakia Hammouch and Toufik Mekkaoui, Traveling-wave solutions of the Generalized
Zakharov Equation with time-space fractional derivatives, Mathematics In
Engineering, Science And Aerospace, 2014.
2- M.G. Hafez, M. N. Alam and M. A. Akbar, Traveling wave solutions for some
important coupled nonlinear physical models via the coupled Higgs equation and the
Maccari system, Journal of King Saud University – Science, 2014.
3- Hasibun Naher, and Farah Aini Abdullah, Further extension of the generalized and
improved G G -expansion method for nonlinear evolution equation, Journal of the
Association of Arab Universities for Basic and Applied Sciences, xxx, xxx–xxx. 2014.
42/53
4- Kamal Ait Touchent, Fethi Bin Muhammad Belgacem, Nonlinear fractional partial
differential equations systems solutions through a hybrid homotopy perturbation
Sumudu transform method, Nonlinear Studies, 22(4), 1-10, 2015.
5- M.S. Bruzon, M.L. Gandarias and J. C. Camacho, Classical and Nonclassical
Symmetries and Exact Solutions for A Generalized Benjamin Equation, Dynamical
Systems, Differential Equations and Applications AIMS Proc., 151–158, 2015.
6- Khaled A. Gepreel, Taher A. Nofal, Analytic Solutions For Nonlinear Evolution
Equations in Mathematical Physics, International Journal of Pure and Applied
Mathematics Volume 106 No. 4, 1003-1016, 2016.
7- F.B.M.Belgacem, E.H. Al-Shemas and R. Silambarasan, Sumudu computation of the
transient magnetic field in a lossy medium, Applied Mathematics & Information
Sciences (AMIS), 10(6), 1-9, 2016.
8- Hasibun Naher, Farah Aini Abdullah, Further extension of the generalized and
improved (G’ /G)-expansion method for nonlinear evolution equation, Journal of the
Association of Arab Universities for Basic and Applied Sciences, 19, 52–58, 2016.
9- Zeynep Fidan Koçak and Dilara Altan Koç, Application of homotopy perturbation
Sumudu transform method to linear and nonlinear Schrödinger equations, AIP
Conference Proceedings, 1738 (480036), 1-5, 2016. (SCI).
G5. Articles cited to the Number A31.
A31.Bulut, H., Baskonus, H.M., and Tuluce, S.,Homotopy perturbation sumudu transform
Method For one-two-three-dimensional initial value problems, e-Journal of New World
Sciences Academy NWSA-Physical Sciences, 3A0051, 7(2), 55-65, 2012.
1- Seyma Tuluce Demiray, Yusuf Pandir, and Hasan Bulut, Generalized Kudryashov
Method for Time-Fractional Differential Equations, Abstract and Applied Analysis,
Volume 2014, Article ID 901540, 13 pages, 2014.
2- Md. Nur Alam, Fethi Bin Muhammad Belgacem, Exact Traveling Wave Solutions for
the (1 + 1)-Dimensional Compound KdVB Equation via the Novel (G'/G)-Expansion
Method, International Journal of Modern Nonlinear Theory and Application, 5, 28-39,
2016.
3-
43/53
G6. Articles cited to the Number A61.
A61. Hasan Bulut, Yusuf Pandir, and Haci Mehmet Baskonus, On the exact solutions of
high order wave equations of KdV type (I), AIP Conf. Proc. (SCI), 1637, 114-126, 2014.
1- Zeynep Fidan Kocak, Hasan Bulut, and Gulnur Yel, The solution of fractional wave
equation by using modified trial equation method and homotopy analysis method,
AIP Conf. Proc. doi: 10.1063/1.4904617, 1637, 504-512, 2014.
2- Ali Özyapıcı, Generalized Trial Equation Method and Its Applications to Duffing and
Poisson-Boltzmann Equations, Turkish Journal of Mathematics, DOI:
10.3906/mat-1603-76, 2016, (SCI).
3-
G7. Articles cited to the Number B4.
B4. Hasan BULUT, H. Mehmet BASKONUS and Seyma TULUCE, The Solutions of
Partial Differential Equations with Variable Coefficient by Sumudu Transform Method,
(ICNPAA 2012) World Congress: 9th International Conference On Mathematical Problems In
Engineering, Aerospace And Sciences, 10 –14 July, Vienna, Austria, 2012.
1. Seyma Tuluce Demiray, Hasan Bulut, and Fethi Bin Muhammad Belgacem,
Sumudu Transform Method for Analytical Solutions of Fractional Type Ordinary
Differential Equations, Mathematical Problems in Engineering. Volume 2015,
Article ID 131690, 6 pages, http://dx.doi.org/10.1155/2015/131690, 2015. (SCI).
2.
G8. Articles cited to the Number A47.
A47. Hasan Bulut, Yusuf Pandir, and Haci Mehmet Baskonus, Symmetrical Hyperbolic
Fibonacci Function Solutions of Generalized Fisher Equation with Fractional Order, AIP
Conf. Proc. (SCI) 1558, 1914 (2013); http://dx.doi.org/10.1063/1.4825907, 2013.
44/53
1- Seyma Tuluce Demiray, Hasan Bulut, Some exact solutions of generalized Zakharov
system, Waves in Random and Complex Media,
http://dx.doi.org/10.1080/17455030.2014.966798, 2014
2- Haci Mehmet Baskonus, Hasan Bulut, and Yusuf Pandir, On the Solution of Nonlinear
Time-Fractional Generalized Burgers Equation by Homotopy Analysis Method and
Modified Trial Equation Method, International Journal of Modeling and Optimization,
4(4), August 2014.
3- Seyma Tuluce Demiray, Yusuf Pandir, Hasan Bulut, All Exact Travelling Wave
Solutions of Hirota Equation and Hirota-Maccari System, Optik, 127, 1848–1859,
2016. (SCI)
4- Seyma Tuluce Demiray, Yusuf Pandir and Hasan Bulut, New solitary wave solutions
of Maccari system, Ocean Engineering 103, 153–159, 2015. (SCI)
5- Yusuf Pandir, Abdullah Sonmezoglu, Hasan Huseyin Duzgun, and Nail Turhan, Exact
solutions of nonlinear Schrödinger’s equation by using generalized Kudryashov
method, AIP Conference Proceedings 1648, 370004; doi: 10.1063/1.4912593, 2015.
(SCI)
6- Seyma Tuluce Demiray, Yusuf Pandir, and Hasan Bulut, The analysis of the exact
solutions of the space fractional coupled KD equations, AIP Conference Proceedings
1648, 370013 (2015); doi: 10.1063/1.4912602, 2015. (SCI)
7-
G9. Articles cited to the Number A50.
A50. Hasan BULUT, H Mehmet BASKONUS, Seyma TULUCE and Tolga AKTURK, A
Comparison between HPM and ADM for The Nonlinear Benjamin-Bona-Mahony Equation,
International Journal of Basic and Applied Sciences, 11(03), 146–157, 2011.
1. Fadhil H. Easif, Saad A. Manaa, Bewar A. Mahmood, Majeed A. Yousif, Variational
Homotopy Perturbation Method for Solving Benjamin-Bona-Mahony Equation,
Applied Mathematics, 6, 675-683, 2015.
2.
45/53
G10. Articles cited to the Number A32.
A32. Hasan Bulut, H. Mehmet Baskonus, Seyma Tuluce, The solution of wave equations by
Sumudu transform method, Journal of Advanced Research in Applied Mathematics,
4(3), 66-72, 2012.
1- Haci Mehmet Baskonus, Hasan Bulut, and Yusuf Pandir, On the Solution of Nonlinear
Time-Fractional Generalized Burgers Equation by Homotopy Analysis Method and
Modified Trial Equation Method, International Journal of Modeling and Optimization,
4(4), August 2014.
2- Md. Nur Alam, Fethi Bin Muhammad Belgacem, Exact Traveling Wave Solutions for
the (1 + 1)-Dimensional Compound KdVB Equation via the Novel (G'/G)-Expansion
Method, International Journal of Modern Nonlinear Theory and Application, 5, 28-39,
2016.
3-
G11. Articles cited to the Number A20.
A20. Hasan Bulut and Haci Mehmet Baskonus, A Comparison Among Homotopy
Perturbation Method And The Decomposition Method With The Variational Iteration Method
For Dispersive Equation, International Journal of Basic and Applied Sciences, 9(10), 32-42,
2009.
1- S. Karimi Vanani, F. Soleymani, Application of the Homotopy Perturbation Method to
the Burgers Equation with Delay, Chinese Physics Letters, 29(3), 1-4, 2012.
2-
3-
G12. Articles cited to the Number A79.
A79. Haci Mehmet Baskonus, Toufik Mekkaoui, Zakia Hammouch, Hasan Bulut, Active
Control of a Chaotic Fractional Order Economic System, Entropy, 17(8), 5771-5783, 2015.
(SCI-E).
46/53
1- Inés Tejado, Duarte Valério, Emiliano Pérez, Nuno Valério Fractional calculus in
economic growth modelling: the Spanish and Portuguese cases, International Journal
of Dynamics and Control, DOI 10.1007/s40435-015-0219-5, 15 pages, 2015.
2- Ilknur Koca, Abdon Atangana, Analysis of a Nonlinear Model of Interpersonal
Relationships with Time Fractional Derivative, Journal of Mathematical Analysis,
7(2), 1-11, 2016. (E-SCI).
3- Fırat Evirgen, Analyze the optimal solutions of optimization problems by means of
Fractional gradient based system using VIM, An International Journal of Optimization
And Control: Theories & Applications (IJOCTA), 6(2), 75-85, 2016.
4- Yixin Xu, Kehui Sun, Shaobo He, Limin Zhang, Dynamics of a fractional-order
simplified unified system based on the Adomian decomposition method, The
European Physical Journal Plus, 131:186, 2016. (SCI).
5- B.S.T. Alkahtani, A. Atangana, Controlling the wave movement on the surface of
shallow water with the Caputo–Fabrizio derivative with fractional order, Chaos,
Solitons and Fractals, 000,1–7, 2016, (SCI).
6- Mostafa Eslami, Exact traveling wave solutions to the fractional coupled nonlinear
Schrodinger equations, Applied Mathematics and Computation, 285, 141-148,
2016,(SCI).
7- A. Coronel-Escamilla, J.F. Gómez-Aguilar, M.G. López-López, V.M. Alvarado-
Martínez, G.V. Guerrero-Ramírez, Triple pendulum model involving fractional
derivatives with different kernels Chaos, Solitons and Fractals, 91, 248–261, 2016,
(SCI).
8- Shuyi Shao, Mou Chen, and Qingxian Wu, Tracking control for uncertain fractional-
order chaotic systems based on disturbance observer and neural network, IMA Journal
of Mathematical Control and Information, 00, 1–20, doi: 10.1093/imamci/dnw024,
2016, (SCI-E).
9- Yixin Xu, Kehui Sun, Shaobo He, and Limin Zhang, Dynamics of a fractional-order
simplified unified system based on the Adomian decomposition method, The
European Physical Journal Plus, 131:186, 2016, (SCI).
G13. Articles cited to the Number C1.
47/53
C1. Haci Mehmet Baskonus, Fethi Bin Muhammad Belgacem, Hasan Bulut, Solutions of
Nonlinear Fractional Differential Equations Systems through an Implementation of the
Variational Iteration Method, Fractional Dynamics, De Gruyter, ISBN: 978-3-11-047209-7,
2015.
1- Kamal Ait Touchent, Fethi Bin Muhammad Belgacem, Nonlinear fractional partial
differential equations systems solutions through a hybrid homotopy perturbation
Sumudu transform method, Nonlinear Studies, 22(4), 1-10, 2015.
G14. Articles cited to the Number A48.
A48. Hasan Bulut, Haci Mehmet Baskonus and Seyma Tuluce, The solutions of
homogeneous and nonhomogeneous linear fractional differential equations by variational
iteration method, Acta Universitatis Apulensis: Mathematics-Informatics, 36, 235-243, 2013.
1- Seyma Tuluce Demiray, Hasan Bulut, Generalized Kudryashov method for nonlinear
fractional double sinh–Poisson equation, J. Nonlinear Sci. Appl. 9, 1349–1355, 2016,
(SCI).
2-
3-
G15. Articles cited to the Number A33.
A33. Hasan BULUT, Haci Mehmet BASKONUS and Seyma TULUCE, The Solutions of
Partial Differential Equations with Variable Coefficient by Sumudu Transform Method, AIP
Con. Proc., 1493, 91-95, 2012. (SCI)
48/53
1- Fethi Bin Muhammad Belgacem, Mahmoud Leila, Maryam Al-Rashed, Sumudu
applications to stochastics, statistics, and correlation theory, International Conference
Mathematical and Computational Modeling in Science and Technology
ICMCMST’2015, August 02-07, 2015 Izmir University-Turkey.
2- S. O. Edeki, G. O. Akinlabi, and S. A. Adeosun, On a modified transformation method
for exact and approximate solutions of linear Schrödinger equations, AIP Conference
Proceedings 1705, 020048; doi: 10.1063/1.4940296, 2016. (SCI)
3- Md. Nur Alam, Fethi Bin Muhammad Belgacem, Exact Traveling Wave Solutions for
the (1 + 1)-Dimensional Compound KdVB Equation via the Novel (G'/G)-Expansion
Method, International Journal of Modern Nonlinear Theory and Application, 5, 28-39,
2016.
4-
G16. Articles cited to the Number A53.
A53. Haci Mehmet Baskonus, Hasan Bulut, Yusuf Pandir, The natural transform
decomposition method for lineer and nonlinear partial differantial equations. Mathematics In
Engineering, Science And Aerospace (MESA), 5(1), 111-126, 2014.
1- Ahmed Safwat Abdel-Rady, Saad Zagloul Rida, Anas Ahmed Mohamed Arafa,
Hamdy Ragab Abedl-Rahim, Natural Transform for Solving Fractional Models.
Journal of Applied Mathematics and Physics, 3, 1633-1634, 2015.
2- Arash Ghahraman, Dynamics of 𝝓𝟒 Kinks by Using Adomian Decomposition
Method, American Journal of Numerical Analysis, 4(1), 8-10, 2016.
3-
G17. Articles cited to the Number A76.
49/53
A76. Haci Mehmet Baskonus and Hasan Bulut, On Some New Analytical Solutions for The
(2+1)-Dimensional Burgers Equation And The Special Type Of Dodd-Bullough-Mikhailov
Equation, Journal of Applied Analysis and Computation, 5(4), 613-625, 2015. (SCI).
1. Gabriel Magalakwe, Ben Muatjetjeja and Chaudry Masood Khalique, Exact Solutions
and Conservation Laws for a Generalized Double Combined sinh–cosh–Gordon
Equation, The Mediterranean Journal of Mathematics, DOI 10.1007/s00009-016-
0681-0.
2. Ali Özyapıcı, Generalized Trial Equation Method and Its Applications to Duffing and
Poisson-Boltzmann Equations, Turkish Journal of Mathematics,
DOI: 10.3906/mat-1603-76, 2016, (SCI).
G18. Articles cited to the Number A59.
A59. Haci Mehmet Baskonus, Hasan Bulut, Yusuf Pandir, On The Solution of Nonlinear
Time-Fractional Generalized Burgers Equation by Homotopy Analysis Method and Modified
Trial Equation Method, International Journal of Modeling and Optimization, 4(4), 305-309,
2014.
1- Md. Nur Alam, Fethi Bin Muhammad Belgacem, Exact Traveling Wave Solutions for
the (1 + 1)-Dimensional Compound KdVB Equation via the Novel (G'/G)-Expansion
Method, International Journal of Modern Nonlinear Theory and Application, 5, 28-39,
2016.
2- Khaled A. Gepreel, Taher A. Nofal and Nehal S. Al-Sayali, Direct method for solving
nonlinear strain wave equation in microstructure solids, International Journal of
Physical Sciences, 11(10), 121-131, 2016.
3-
G19. Articles cited to the Number B7.
50/53
B7. Hasan BULUT, Fethi Bin Muhammad Belgacem, Haci Mehmet BASKONUS, Partial
fractional differential equation systems solutions by Adomian decomposition method
implementation, 4th International Conference On Mathematical and Computational
Applications (ICMCA 2013), 11-13 June 2013, Manisa, Turkey, 2013.
1- K. A.Touchent, F.B.M.Belgacem, Nonlinear fractional partial differential equations
systems solutions through a hybrid homotopy perturbation Sumudu transform method,
Nonlinear Studies, 22(4), 1-10, 2015.
2- F.B.M.Belgacem, R. Silambarasan, A Distinctive Sumudu transform and
trigonometric functions, Journal of Computational and Applied Mathematics,
http://dx.doi.org/10.1016/j.cam.2015.12.036, 2016. (SCI)
3- Arash Ghahraman, Dynamics of 𝝓𝟒 Kinks by Using Adomian Decomposition
Method, American Journal of Numerical Analysis, 4(1), 8-10, 2016.
4- F.B.M.Belgacem, E.H. Al-Shemas and R. Silambarasan, Sumudu computation of the
transient magnetic field in a lossy medium, Applied Mathematics & Information
Sciences (AMIS), 10(6), 1-9, 2016.
G20. Articles cited to the Number A80.
A80. Haci Mehmet Baskonus and Hasan Bulut, On the Complex Structures of Kundu-Eckhaus
Equation via Improved Bernoulli Sub-Equation Function Method, Waves in Random and
Complex Media, 25(4), 720-728, 2015, (SCI).
1- Jalil Manafian, Mehrdad Lakestani, Abundant soliton solutions for the Kundu-
Eckhaus equation via tan(ϕ(ξ))-expansion method, OPTIK - International Journal For
Light And Electron Optics, March 2016, DOI: 10.1016/j.ijleo.2016.03.041, 2016,
(SCI).
2- Huiju Dai, and Lianzhong Li, Solitary Wave Solutions to the Sharma-Tasso-Olver Equation
and the Similar Hirota-Satsuma KdV System through the Modified Simple Equation Method,
British Journal of Mathematics and Computer Science 17(3): 1-10, 2016.
3-
4-
51/53
G21. Articles cited to the Number A82.
A82. Haci Mehmet Baskonus and Hasan Bulut, On the Numerical Solutions of Some
Fractional Ordinary Differential Equations by Fractional Adams-Bashforth-Moulton Method,
Open Mathematics, 13(1), 547–556, 2015, (SCI).
1- Ilknur Koca, Abdon Atangana, Analysis of a Nonlinear Model of Interpersonal
Relationships with Time Fractional Derivative, Journal of Mathematical Analysis,
7(2), 1-11, 2016. (E-SCI).
2- B.S.T. Alkahtani, A. Atangana, Controlling the wave movement on the surface of
shallow water with the Caputo–Fabrizio derivative with fractional order, Chaos,
Solitons and Fractals, 000, 1–7, 2016, (SCI).
3- Mostafa Eslami, Exact traveling wave solutions to the fractional coupled nonlinear
Schrodinger equations,Applied Mathematics and Computation, 285, 141–148, 2016,
(SCI).
4- Fırat Evirgen, Analyze the optimal solutions of optimization problems by means of
Fractional gradient based system using VIM, An International Journal of Optimization
And Control: Theories & Applications (IJOCTA), 6(2), 75-85, 2016.
5- Trushit Patel and Ramakanta Meher, Adomian decomposition sumudu transform
method for solving a solid and porous fin with temperature dependent internal heat
generation, SpringerPlus, 5(489),1-18, 2016, (SCI).
6- Zainab E Abdulnaby , Rabha W Ibrahim, and Adem Kilicman, Some properties for
integro-differential operator defined by a fractional formal, SpringerPlus, Accepted,
2016, (SCI).
7- Huiju Dai, and Lianzhong Li, Solitary Wave Solutions to the Sharma-Tasso-Olver Equation
and the Similar Hirota-Satsuma KdV System through the Modified Simple Equation Method,
British Journal of Mathematics and Computer Science 17(3): 1-10, 2016.
52/53
8- A. Coronel-Escamilla, J.F. Gómez-Aguilar, M.G. López-López, V.M. Alvarado-
Martínez, G.V. Guerrero-Ramírez, Triple pendulum model involving fractional
derivatives with different kernels Chaos, Solitons and Fractals, 91, 248–261, 2016,
(SCI).
9- Z. E. Abdulnaby, R. W. Ibrahim and A. Kılıçman, Some properties for integro
differential operator defined by a fractional formal, SpringerPlus, 5:893
DOI 10.1186/s40064-016-2563-0, 2016, (SCI).
10-
G22. Articles cited to the Number A70.
A70. Hasan Bulut, Fethi Bin Muhammad Belgacem, Haci Mehmet Baskonus, Some New
Analytical Solutions for the Nonlinear Time-Fractional KdV-Burgers-Kuramoto Equation,
Advances in Mathematics and Statistical Sciences,118-129, 2015.
1- Ilknur Koca, Abdon Atangana, Analysis of a Nonlinear Model of Interpersonal
Relationships with Time Fractional Derivative, Journal of Mathematical Analysis,
7(2), 1-11, 2016. (E-SCI).
2- B.S.T. Alkahtani, A. Atangana, Controlling the wave movement on the surface of
shallow water with the Caputo–Fabrizio derivative with fractional order, Chaos,
Solitons and Fractals 000, 1–7, 2016, (SCI).
3- Mostafa Eslami, Exact traveling wave solutions to the fractional coupled nonlinear
Schrodinger equations,Applied Mathematics and Computation, 285, 141–148, 2016,
(SCI).
4- A. Coronel-Escamilla, J.F. Gómez-Aguilar, M.G. López-López, V.M. Alvarado-
Martínez, G.V. Guerrero-Ramírez, Triple pendulum model involving fractional
derivatives with different kernels Chaos, Solitons and Fractals, 91, 248–261, 2016,
(SCI).
G23. Articles cited to the Number A83.
A83. Haci Mehmet Baskonus and Hasan Bulut, An Effective Scheme for Solving Some
Nonlinear Partial Differential Equation Arising In Nonlinear Physics, Open Physics, 13(1),
280–289, 2015, (SCI).
1- Huiju Dai, and Lianzhong Li, Solitary Wave Solutions to the Sharma-Tasso-Olver
Equation and the Similar Hirota-Satsuma KdV System through the Modified Simple
53/53
Equation Method, British Journal of Mathematics and Computer Science 17(3): 1-10,
2016.
2-
G24. Articles cited to the Number A24.
A24.Bulut, H. and Baskonus H. M., ‘Geometrical Interpretation and A Comparative Study
Between Three Different Methods For Solving The Non-Linear Kdv Equation’, Journal of
Advanced Research in Scientific Computing, 2 (1), 69-76, (2010).
1- Arash Ghahraman, Dynamics of 𝝓𝟒 Kinks by Using Adomian Decomposition Method,
American Journal of Numerical Analysis, 4(1), 8-10, 2016.
G25. Articles cited to the Number A77.
A77. Haci Mehmet Baskonus and Hasan Bulut, Analytical Studies on the (1+1)-dimensional
Nonlinear Dispersive Modified Benjamin-Bona-Mahony Equation Defined by Seismic Sea
Waves, Waves in Random and Complex Media, 25(4), 576–586, 2015. (SCI).
1- Trushit Patel and Ramakanta Meher, Adomian decomposition sumudu transform
method for solving a solid and porous fin with temperature dependent internal heat
generation, SpringerPlus, 5(489),1-18, 2016, (SCI).
2- Qin Zhoua, M. Ekici b, A. Sonmezoglub, M. Mirzazadeh, Optical solitons with
Biswas–Milovic equation by extended G’/G-expansion, Optik, 127, 6277–6290, 2016,
(SCI).
3- Huiju Dai, and Lianzhong Li, Solitary Wave Solutions to the Sharma-Tasso-Olver
Equation and the Similar Hirota-Satsuma KdV System through the Modified Simple
Equation Method, British Journal of Mathematics and Computer Science 17(3): 1-10,
2016.
4-
54/53
G26. Articles cited to the Number A74.
A74. Haci Mehmet Baskonus and Hasan Bulut, New Hyperbolic Function Solutions for
Some Nonlinear Partial Differential Equation Arising in Mathematical Physics, Entropy,
17(6), 4255-4270, 2015. (SCI-E).
1- Kamruzzaman Khan, M. Ali Akbar and Ahmed H. Arnous, Exact traveling wave
solutions for system of nonlinear evolution equations, SpringerPlus, DOI
10.1186/s40064-016-2219-0, 1-11,2016, (SCI-E).
2- Huiju Dai, and Lianzhong Li, Solitary Wave Solutions to the Sharma-Tasso-Olver
Equation and the Similar Hirota-Satsuma KdV System through the Modified Simple
Equation Method, British Journal of Mathematics and Computer Science 17(3): 1-10,
2016.
3- Ali Özyapıcı, Generalized Trial Equation Method and Its Applications to Duffing and
Poisson-Boltzmann Equations, Turkish Journal of Mathematics, DOI:
10.3906/mat-1603-76, 2016, (SCI).
4-
5-
6-
G27. Articles cited to the Number A87.
A87. Haci Mehmet Baskonus and Hasan Bulut, Exponential Prototype Structures for (2+1)-
Dimensional Boiti-Leon-Pempinelli Systems in Mathematical Physics, Waves in Random and
Complex Media, 26(2), 201-208, 2016. (SCI).
1- Huiju Dai, and Lianzhong Li, Solitary Wave Solutions to the Sharma-Tasso-Olver
Equation and the Similar Hirota-Satsuma KdV System through the Modified Simple
Equation Method, British Journal of Mathematics and Computer Science 17(3): 1-10,
2016.
2-
55/53
G28. Articles cited to the Number A90.
A90. Haci Mehmet Baskonus, Hasan Bulut, Abdon Atangana, On the Complex and
Hyperbolic Structures of Longitudinal Wave Equation in a Magneto-Electro-Elastic Circular
Rod, Smart Materials and Structures, 25(3), 035022,(8 pp), 2016, (SCI).
1- Huiju Dai, and Lianzhong Li, Solitary Wave Solutions to the Sharma-Tasso-Olver
Equation and the Similar Hirota-Satsuma KdV System through the Modified Simple
Equation Method, British Journal of Mathematics and Computer Science 17(3): 1-10,
2016.
G29. Articles cited to the Number A94.
A94. Haci Mehmet Baskonus, Hasan Bulut, New wave Behaviors of the System of
Equations for the Ion Sound and Langmuir Waves, Waves in Random and Complex Media,
Accepted, DOI:10.1080/17455030.2016.1181811, 2016. (SCI).
1- Huiju Dai, and Lianzhong Li, Solitary Wave Solutions to the Sharma-Tasso-Olver
Equation and the Similar Hirota-Satsuma KdV System through the Modified Simple
Equation Method, British Journal of Mathematics and Computer Science 17(3): 1-10,
2016.
G30. Articles cited to the Number A34.
A34. Hasan BULUT and Haci Mehmet BASKONUS, On The Geometric Interpretations of
The Klein-Gordon Equation And Solution Of The Equation By The HPM, Applications and
Applied Mathematics: An International Journal (AAM), 7(2), 619 – 635, 2012.
W.K. Zahra, W.A. Ouf and M.S. El-Azab, A robust uniform B-spline collocation method for
solving the generalized PHI-four equation, Applications and Applied Mathematics: An
International Journal (AAM), 11(1), 384 – 396, 2016
56/53
57/53
H. Editorial Activities
H1. www.hindawi.com
H2. http://www.newwsa.com/site_gorevli_listesi_3.asp?d=2&gorev_id=6
H3.Mathematics Letters