Field of scientific interests: |
Dr. of Sc., Prof. David Cheban |
Curriculum Vitae
General Information:
Full Name: David Nikolai Cheban
Date and place of birth: April 25, 1952, v. Cioc-Maidan, Comrat district, Republic of Moldova
Citizenship: Republic of Moldova (former USSR)
Family status: married, two children (son - 1977 and daughter - 1982).
Education:
High School (1959-1969).
Ms (1969-1974):
State University of Moldova,
Faculty of Mathematics and Cybernetics.
PhD (1974-1977):
State University of Moldova,
Chair of Differential Equations
Dr. of Sc. (1986-1988):
State University of Moldova,
Chair of Differential Equations
Languages:
- Russian, French, Turkish (perfect),
- English, Romania, Italian (well),
Social-scientific activity:
- Member of the Special Council of Defending of Theses (Ph.D. andDr.Sc.) on the speciality Differential Equations (Republic of MOLDOVA), 1993-2003;
- Expert of the Highest Certifying Commission for Entitling of Scientific Titles and Degrees at the Government of Republic of Moldova, 1996-2000;
The scetch of my biography is included in the "Who's Who in the World" and "Who's Who in America" encyclopedias.
Awards:
- Honorous diploma in the field of mathematics (1974);
- Golden Medal of the Ministry of Education of Republic of Moldova: Best Student's Scientific Work (1974);
- Honorary deed of the Ministry of Education of Soviet Union: Best Student's Scientific Work (1975);
- Best young scientist of the State University of Moldova (1982);
- Honorary deed of the Ministry of Education of Republic of Moldova (2011).
High Education (1969-1974) at:
State University of Moldova, MOLDOVA, USSR,
Faculty of Mathematics and Cybernetics,
Department of Mathematics,
Chair of Differential Equations.
Master's thesis "Asymptoticaly Stable in the Sense of Poisson Solutions of Differential Equations". Thesis Advisor - Prof. B.Shcherbacov. View text
Awards:
- Honourous diploma in the field of mathematics,
- Golden Medal of Minister of education of Republic of Moldova: best student's scientific work (1974),
- Honorary deed of Minister of Education of Soviet Union: best student's scientific work (1975),
- Honorary deed of the Ministry of Education of Republic of Moldova (2011).
First Post Graduation (1974-1977) at:
State University of Moldova,
Faculty of Mathematics and Cybernetics,
Department of Mathematics,
Chair of Differential Equations.
PhD (Candidate of Sciences in USSR) (1978) at:
University of Belorussia, USSR.
PhD thesis "Asymptotic Stability in the Sense of Poisson of Motions of Dynamical Systems and Solutions of Differential Equations"(approved by the USSR Highest Certifying Commission), Thesis Advisor - Prof. B. Shcherbacov. The official opponents: Prof. A. Sharkovsky, PhD V. Amelkin View text
Award: best young scientist of the State University of Moldova (1982).
Courses of French language (10 months, September 1979 - June 1980):
Honorous diploma of State University of Kiev, Kiev, UKRAINE.
Courses of French language (1,5 months, July - August 1980):
University of Jean Paul Valerie, Montpillier, FRANCE.
Second Post Graduation (1986-1988) at:
State University of Moldova,
Faculty of Mathematics and Cybernetics,
Department of Mathematics,
Chair of Differential Equations.
Dr.Sc. (Doctor of Sciences in the USSR), 1991.
Thesis "Non-Autonomous Dissipative Dynamical Systems". The official opponents: Profs A. Myshkis, E. Grebennikov and I. Gaishun.
National Academy of Science of Republic of Belorussia (approved by the USSR Highest Certifying Commission). View text
Academic positions:
State University of Moldova (MOLDOVA):
- Assistant Professor (1977 - 1982)
- Associated Professor (1982 - 1992)
- Professor (1992 - present)
University of Sciences and Technology of Alger (ALGERIE):
Senior lecturer (1980 - 1983)
Teaching experience:
more than 40 years of courses in the next disciplines:
- ordinary differential equations,
- partial differential equations,
- calculus,
- general mathematics (for non-mathematical faculties),
- autonomous dynamical systems,
- non-autonomous dynamical systems,
- linear differential equations in the Banach spaces,
- dissipative dynamical systems,
- global attractors of dynamical systems,
- asymptotic methods in the theory of differential equations,
- almost periodic functions and differential equations,
- differential equations and non-standard analysis,
- distributions and their applications to differential equations,
- theory of stability of dynamical systems.
Manuals for students:
1. The Ordinary Differential Equations. Problem Solver. Chisinau, USM, 2001, p.408 (in Russian).
2. Probleme de ecuatii diferentiale (with A. Suba). Press of the State University of Moldova, Chisinau, MOLDOVA, 2001, p.250. (in Romanian).
3. Integral equations. Teaching-methodical manual at the section "Differential and integral equations" of the course of high mathematics for students of the Faculty of Physics. State University of Moldova, Chisinau, MOLDOVA, 1990.
4. High Mathematics (brief handbook). "Evrika", Chisinau, MOLDOVA, 1997 (in Russian and Romanian).
- PhD theses in the former USSR (three theses):
1. I. Dontvi. Bounded, Almost Periodic and Asymptotically Almost Periodic Solutions of Linear Differential Equations with Generalized Perturbations. PhD thesis, Odessa, UKRAINE, USSR, 1988.
2. V. Gutu. Bounded and Periodic Solutions of Differential Equations with Impulse. PhD thesis, Odessa, UKRAINE, USSR, 1989.
3. D. Fakeeh. Dissipative Dynamical Systems Without Uniqueness. PhD thesis, Minsk, BELORUSSIA, 1992.
- Magister Theses in Algeria (three theses):
1. I. Aiffa. Solutions Periodiques, Presque-Periodiques et Stable au Sense de Poisson, des Equations Lineaires Integrales de Volterra. These de Magister, Alger, ALGERIE, 1983.
2. K. Belkacemi. Solutions Asymptotiquement Presque-Periodiques des Equations Differentielles. These de Magister, Alger, ALGERIE, 1983.
3. N. Hassani. Systems Dynamiques Non-autonomes Contractants et Leurs Applications. These de Magister, Alger, ALGERIE, 1983.
- Master theses:
2013 - T.Dragancea
2009 - I. Razloga
2008 - Obruci N., Sirbu M. and Zaharia P.
2007 - I. Nalivan
2002 - S. Iovchev
2001 - A. Calina
2000 - D. Melniciuc, A. Smetanin
1999 - N. Martynova
1998 - O. Caterenchiuc, N. Tarlazhanu (Masleak), I. Masleac
1996 - I. Patsiuk
1994 - V. Topalov
1993 - N. Akbash
1992 - Prutyan V. S.
1990 - T. Ermakova
1989 - S. Gavrilitsa
1988 - G. Tichonova
1986 - R. Bozhescu
1980 - A. Baier (Germany, DDR)
1979 - A. Shipkov, V. Kolomiets
Researcher leadership:
1. I was the initiator of organization of the scientific seminar on Dynamical Systems in Algerian university (University of Science and Technology Houarie Boumediene - USTHB) and have directed it (together with Dr. D.Boularass (ALGERIA) and Dr. B. Kalitine (BELORUSSIA)) during 1980 - 1983.
2. Principal Investigator of the CRDF&MRDA (CRDF - U.S. Civilian Research and Development Foundation, MRDA - Moldovan Research and Development Association) grant No. MM1-3016 "Asymptotic Behavior of Non-Autonomous Dynamical Systems with Applications in Hydrodynamics, Meteorology and Oceanology" (September 2001 - February 2003).
3. Coordinator of the grant of Scientific Committee of Government of Republic of Moldova (2001 - 2002).
4. Coordinator of the grant FP7 (2012-2016).
2018
School of Mathematical Sciences, Dalian University of Technology (March – May 2018, China, Dalian).
2017
School of Mathematical Sciences, Dalian University of Technology (March – May 2017, China, Dalian).
2016
School of Mathematical Sciences, Dalian University of Technology (March – May 2016, China, Dalian).
Center for Mathematical Sciences, Huanzhong University of cience and Technology in Wuhan (December 2016, China, Wuhan).
2015
University of Macerata (September – November 2015, Italy, Macerata – Prof. C. Mammana)
2014
University of Sao Paulo (Sao Carlos, Brazil – Prof. A. Carvalho)
University of Sevilla (Sevilla, Spain – Prof. T. Caraballo)
2013
University of Granada (Granada, Spain – Prof. R. Ortega)
2012
University of Macerata (Macerata, Italy – Prof. C. Mammana)
University of Ancona (Ancona, Italy – Prof. E. Tomasini)
2011
University of Seville (Seville, Spain – Prof. T. Caraballo)
2010
University of Seville (Seville, Spain – Prof. T. Caraballo)
2008
University of Limoges (Limoges, France - Prof. D. Boularas)
2007
University of Seville (Seville, Spain - Prof. T. Caraballo)
2006
University of Paderborn (Paderborn, Germany - Prof. B. Schmalfuss)
2003-2004
University of Ancona (Ancona, ITALY – Prof. Enrico Tomasini)
2002
Illinois Institute of Technology (Chicago, USA – Prof. Jinqiao Duan)
University of Missouri (Columbia, USA – Profs Carmen Chiconi and Yurii Latushkin)
University of Florence (Florence, ITALY – Prof. Russell Johnson)
University of Macerata (Macerata, ITALY – Prof. Cristiana Mammana)
2000
University of Bremen (Bremen, GERMANY – Prof. Ludwig Arnold)
University of Merseburg (Merseburg, GERMANY – Prof. Bjoern Schmalfuss)
University of Frankfurt (Frankfurt am Main, GERMANY – Prof. Peter Kloeden)
1999
University of Merseburg (Merseburg, GERMANY – Prof. Bjoern Schmalfuss)
University of Frankfurt (Frankfurt am Main, GERMANY – Prof. Peter Kloeden)
1998
Institute of Mathematics of Oberwolfach (Oberwolfach, GERMANY – Profs Peter Kloeden and Bjoern Schmalfuss)
1997
University of Merseburg (Merseburg, GERMANY – Prof. Bjoern Schmalfuss)
1984
Moscow State University of M.V.Lomonosov (Moscow, RUSSIA - Prof. V. Millionshchikov)
1976
Moscow State University of M.V.Lomonosov (Moscow, RUSSIA - Profs. B. Demidovich and V. Millionshchikov)
2015
The Visiting Scholar Grant for collaboration with teaching and research activity (September–November 2015, Italy, Macerata).
2014
FP7-PEOPLE-2012-IRSES-316338 (August--October 2014, University of Sao Paulo, Sao Carlos, Brazil), Visiting Professor.
2013
FP7-PEOPLE-2012-IRSES-316338 (May—June 2013,Belorussian State University, Minsk, Belorussia), Visiting Professor.
Erasmus Mundus -- EMERGE scholarship (December 2013 – January 2014, University of Granada, Granada, Spain), Visiting Professor.
2012
FP7-PEOPLE-2012-IRSES-316338 (2012--2014 years).
PROGRAMMI DI RICERCA SCIENTIFICA DI RILEVANTE INTERESSE NAZIONALE RICHIESTA DI COFINANZIAMENTO (Ministero dell' Istruzione dell' Universit e della Ricerca, Italy). University of Macerata (May - August 2012) under the Grant PRIN-2009, Visiting Professor.
2010
The Programa de Movilidad de Profesores Universitarios y Extranjeros (Ministerio de Educacion, Spain) grant SAB2009-0078 (University of Seville, Seville, Spain: February 2010 - September 2010), Visiting Researcher.
Proiectul Comportări asimptotice şi control în sisteme de evoluţie guvernate de ecuaţii diferenţiale din cadrul Programului de stat Cercetări fundamentale şi aplicative în matematică (Nr. _cod 06411.411.029f, 2010-2013), Cercet. şt. coord.
2007
Grant of the Consejeri a de Innovacion Ciencia y Empresa de la Junta de Andalucia (University of Seville, Seville, Spain: November 2007 - January 2008), Visiting Research.
2006
DAAD grant (November - December 2006: Paderborn, Germany), Personal grant.
2003
Grant of European Commission (Marie Curie 6th Program, May 2003 - October 2004), Visiting Researcher.
2002
NATO-CNR grant (September 2002 - February 2003, ITALY), Personal grant.
2001
Grant of Scientific Committee of Government of Republic of Moldova, Coordinator (2001-2002).
Grant CRDF&MRDA (grant No.MM1-3016, September 2001 - February 2003), Principal Investigator.
2000
Travel grant of Soros International Scientific Foundation (May 2000), Personal grant.
DAAD-grant (September, 01 - November, 30, Frankfurt am Main, Bremen, Merseburg, GERMANY), Personal grant.
1999
DFG-grant (September, 15 - October, 15, Frankfurt am Main, GERMANY), Visiting Researcher.
1998
RIP Research grant (March, 01 - March, 14, Oberwolfach, GERMANY), with Profs. P.E.Kloeden (University of Frankfurt, GERMANY) and B.Schmalfuss (University of Merseburg, GERMANY).
1993
Grant of Soros International Scientific Foundation.
Office:
State University of Moldova,
Faculty of Mathematics and Informatics,
Str. Mateevici 60,
Chisinau MD 2009,
Republic of MOLDOVA.
Phone: +37322 242720
Fax: +37322 242720
E-mail: cheban@usm.md
Home Page: fmi.usm.md/en/davidcheban
Home:
David Cheban
Bd. Moscova 12, ap. 45,
Chisinau MD 2068,
Republic of MOLDOVA.
Phone: +37322321756
GSM: +37369566824 (international), 069566824 (local)
2019
177. Cheban D. N., I. U. Bronshtein's Conjecture for Monotone Nonautonomous Dynamical Systems. Discrete and Continuous Dynamical Systems: series B, 2019, Vol.24, No.3, pp.1095-1113. View text
176. Cheban D. N., Bohr/Levitan Almost Periodic and Almost Automorphic Solutions of Linear Stochastic Differential Equations without Favard's Separation Condition. Chapter in book "Advance in Evolution Equations: Evolution Equations: Almost Periodicity and Beyond". Editors: G. N'Guerekata, Jin Lian and Alexander Pankov. Dedicated to the memory of V. V. Zhikov. Nova Science Publishers, New York, 2019, ix+327 pp, pp.155-206. View text
2018
175. Cheban D. N., Levitan/Bohr Almost Periodic and Almost Automorphic Solutions of the Scalar Differential Equations. Dynamical Systems: An International Journal. 2018, Vol.33, No.4, pp.667-690. View text
2017
174. Cheban D. N., Linear Stochastic Differential Equations and Nonautonomous Dynamical Systems. Proceedings CMSM4, The Fourth Conference of Mathematical Society of the Republic of Moldova: dedicated to the centenary of Vladimir Andrunachievici (1917-1997). June 28 –July 2, Chisinau 2017, pp.255-258. View text
173. Cheban D. N., Bohr/Levitan Almost Periodic and Almost Automorphic Solutions of Linear Stochastic Differential Equations without Favard's Separation Condition. Internationl Journal of Evolution Equations, 2017, Vol. 10, No.3-4, pp.349-389. (special issue dedicated to the memory of V. V. Zhikov). View text
2016
172. Cheban D. N., Levitan/Bohr Almost Periodic and Almost Automorphic Solutions of the Scalar Differential Equations. Mathematics & Information Technologies: Research and Education (MITRE-2016), Chişinău, Republic of Moldova, June 23-26, 2016, pp.18-19.
171. Cheban D. N., Mammana C. and Michetti E., The Structure of Global Attractors for Non-Autonomous Perturbations of Discrete Gradient-Like Dynamical Systems. Patterns of Dynamics: Conference in Honor of Bernold Fiedler, Berlin July 25--29, 2016. Book of Abstracts and Program, p.28.
170. Cheban D. N., Mammana C. and Michetti E., The Structure of Global Attractors for Non-Autonomous Perturbations of Discrete Gradient-Like Dynamical Systems. Journal of Difference Equations and Applications, Vol.22, No.11, 2016, pp.1673--1697. View text
2015
169. Cheban D. N., Mammana C. and Michetti E., Global attractors of non-autonomous difference equations: A growth model with endogenous population growth. Dynamical Systems and Applications, 24 (2015), no.1-2, pp.17-33. View text
168. Cheban D. N., The Structure of Global Attractors for Non-Autonomous Gradient-Like Dynamical Systems. International conferences "Mathematics & Information Technologies: Research and Eduacation (MITRE-2015). Abstracts, Chisinau, July 2-4, 2015, p.21-22. View text
167. Cheban D. N., Relation between Levinson center, chain recurrent set and center of Birkhoff for compact dissipative dynamical systems. Bulletinul Academiei de Stiinte a Republicii Moldova. Matematica, No.2 (78), 2015, pp.42--60. View text
166. Cheban D.N. and Kalitine B.S., On the stability of gradient-like systems. International mathematical conference "Sixth Bogdanov reads on ordinary differential equations", December 7-10, 2015. Abstracts of conference, Vol.1, Minsk, 2015, pp.90-92.
165. Cheban D.N. Global Attractors of Nonautonomous Dynamical and Control Systems. Interdisciplinary Mathematical Sciences, vol.18, River Edge, NJ: World Scientific, 2015, xxv+589 pp.
164. Cheban David, Belitskii--Lyubich Conjecture for C-Analytic Dynamical Systems. DISCRETE AND CONTINUOUS DYNAMICAL SYSTEMS SERIES, series B, Vol. 20, No. 3, 2015 pp. 945--959. View text
2014
163. Cheban D. N. and Kalitine B. S., On the Stability of Gradient-Like Systems. International Journal of Evolution Equations, Vol.9, No.2, 2014, pp.151-166. View text
162. Cheban D. N., Compact Global Attractors of Non-autonomous Gradient-Like Dynamical Systems. Buletinul Academiei de Stiinte a Republicii Moldova. Matematica, No.2 (75), 2014, pp.85--101. View text
161. Cheban D. N., Birkhoff's center of compact dissipative dynamical system. The Third Conference of Mathematical Society of the republic of Moldova, 19-23 August, 2014, Chisinau, Moldova. Proceedings IMCS-50. Chisinau, Inst. Math Comp. Science, Academy of Sciences of Moldova, 2014. p.239-242. View text
160. Cheban D. N., Markus-Yamabe Conjecture for Non-Autonomous Systems. Nonlinear Analysis: TMA, Volume 95, 2014, pp.202–218. View text
159. Cheban D. N., Compact Global Chaotic Attractors of Discrete Control Systems. Nonautonomous and Stochastic Dynamical Systems, DOI: 10.2478/msds-2013-0002, NSDS, 2014, pp.10-25. View text
2013
158. Cheban D. N., Belitskii--Lyubich Conjecture for C-Analytic Dynamical Systems. Abstracts of the international conferences. Mathematics & Information Technologies: Research and Education (MITRE-2013). August 18-22, 2013, Chisinau (Republic of Moldova), pp.28-29. View text
157. Caraballo Tomas and Cheban David, Almost Periodic Motions in Semi-Group Dynamical Systems and Bohr/Levitan almost periodic solutions of Linear difference equations without Favard's separation condition. Journal of Difference Equations and Applications, Volume 19, Issue 6, 2013, pp.872-897. View text
156. Cheban D. N., Asymptotic Stability of Non-autonomus Dynamical Systems. Buletinul Academiei de Stiinte a Republicii Moldova. Matematica, No.1 (71), 2013, pp.11-44. View text
155. Cheban D. N. and Mammana C., Markus-Sell's Theorem for Asymptotically Almost Periodic Systems. Chapter in the Book „Dynamical Systems: Theory, Applications and Future Directions". Editor: Jean Michel Tchuenche (Atlanta, GA , USA). Nova Science Publishers, 2013, pp.1--20. View text
154. Cheban D. N., Lyapunov Stability of Non-Autonomous Dynamical Systems. Nova Science Publishers Inc, 2013, xii+275 pp.
153. Cheban D. N., Mammana C. and Michetti E., Global attractors of quasi-linear non-autonomous difference equations: A growth model with endogenous population growth. Nonlinear Analysis: series B, 14 (2013) pp.1716 -1731. View text
152. Caraballo Tomas and Cheban David, Almost Periodic and Almost Automorphic Solutions of Linear Differential Equations. DCDS-A, vol. 33, no. 5, 2013, pp.1857-1882. View text
151. Caraballo Tomas and Cheban David, On the Structure of the Global Attractor for Infinite-Dimensional Non-autonomous Dynamical Systems with Weak Convergence. Communications on Pure and Applied Analysis (CPAA), vol.12, no.1, 2013, pp. 281-302 View text
2012
150. Cheban D. N., Markus-Sell's Theorem for Nonautonomous Dynamical Systems. Abstracts of the 20-th Conference on Applied and Industrial Mathematics. Dedicated to Academician Mitrofan M. Ciobanu. Chisinau, August 22-25, 2012, p. 63.
149. Cheban D. N. and Mammana C., Markus-Sell's Theorem for Infinite Dimensional Asymptotically Almost Periodic Systems. Abstracts of the 9-th AIMS International Conference on "Dynamical Systems, Differential Equations and Applications". July 1-5, 2012 Hyatt Regency Grand Cypress (Orlando, Florida, USA), .pp. 246. View text
148. Cheban D. N. and Mammana C., Chaotic Attractors of Control Systems. Proceedings, 5th Chaotic Modeling and Simulation. International Conference, 12-15 June 2012, Athene Grece, 2012, pp.131-138. View text
147. Cheban D. N. and Mammana C., Chaotic Attractors of Control Systems. Book of abstracts Chaos 2012: 5-th Chaotic Modeling and Simulation International Conference. Editor Christos H. Skiadis. 12-15 June 2012 (Athene, Greece), pp. 29. View text
146. Cheban D. N., Sell's conjecture for Non-Autonomous Dynamical Systems. Nonlinear Analysis: TMA, Vol.75, no.7, 2012, pp.3393-3406. View text
145. Caraballo Tomas and Cheban David, On the Structure of the Global Attractor for Non-autonomous Dynamical Systems with Weak Convergence. Communications in Pure and Applied Analysis, Vol.11, no.2, 2012, pp.809-828. View text
144. Caraballo Tomas and Cheban David, On the Structure of the Global Attractor for Non-autonomous Difference Equations with Weak Convergence. Journal of Difference Equations and Applications, Volume 18, Issue 4, 2012, pp.535-551. View text
2011
143. Cheban D. N., G. Sell's conjecture for non-autonomous dynamical systems. Abstracts of international conferences. Mathematics & Information Technologies: Research and Education (MITRE-2011). Dedicated to the 65th aniversary of the Moldova State University. August 22-25, 2011, Chisinau (Republic of Moldova), pp. 32-34. View text
142. Caraballo Tomas and Cheban David, Levitan/Bohr Almost Periodic and Almost Automorphic Solutions of Second-Order Monotone Differential Equations. Journal of Differential Equations, Vol.251, No.3, 2011, pp.708-727. View text
141. Caraballo Tomas and Cheban David, Almost Periodic and Asymptotically Almost Periodic Solutions of Lienard Equation. DCDS-B, Vol.16, No.3, 2011, pp.703-717 . View text
2010
140. Cheban D. N., Global Attractors of Set-Valued Dynamical and Control Systems. Nova Science Publishers Inc, New York, 2010, xvii+269 pp.
139. Cheban D. N., Compact Global Attractors of Control Systems. Journal of Dynamical and Control Systems, vol.16 (2010), no.1, pp. 23--44. View text
138. Boularas Driss and Cheban David, Asymptototic Stability of Switching Systems. Electronical Journal of Differential Equations, 2010 (2010), no.21, pp.1-18. View text
2009
137. Cheban D. N. and Mammana C., A Invariant Manifolds, Almost Periodic and Almost Automorphic Solutions of Seconde-Order Monotone Equations. New Research on Evolution Equations: Editor G. M. N'Guerekata. Nova Science Publishers, Inc. New York, 2009, pp.123--145. View text
136. Cheban D. N., Kloeden P. E. and Schmalfuss B., Relation Between pullback and Global Attractors of Nonautonomous Dynamical Systems. Advances in Chaotic Dynamics and Applications. Stability, Oscilations and Optimization of Systems. Editors: C. Cruz-Hernandez and A. A. Martynyuk: Vol. 4, Cambridge Scientific Publishers, 2009, 280 pp. View text
135. Cheban D. N., Asymptotically Almost Periodic Solutions of Differential Equations. Hindawi Publishing Corporation, New York, 2009, ix+186 pp.
134. Caraballo T. and Cheban D., Almost Periodic and Almost Automorphic Solutions of Linear Differential/Difference Equations without Favard's Separation Condition.II J. Differential Equations, 246 (2009), pp.1164--1186. View text
133. Caraballo T. and Cheban D., Almost Periodic and Almost Automorphic Solutions of Linear Differential/Difference Equations without Favard's Separation Condition.I J. Differential Equations, 246 (2009), pp.108--128. View text
132. Cheban D. N., Mammana C. and Michetti E., Global Attractors of Nonautonomous Difference Equations. Bulletinul Academiei de Stiinte a Republicii Moldova. Matematica, No.1 (59), 2009, pp.45--57. View text
2008
131. Cheban D. N. and Schmalfuss B., Invariant Manifolds, Global Attractors, Almost Automrphic and Almost Periodic Solutions of Non-Autonomous Differential Equations. J.Math.Anal.Appl., 340, no.1 (2008), 374-393. View text
130. Cheban D. N., Levitan Almost Periodic and Almost Automorphic Solutions of V-monotone Differential Equations. J. Dyn. Diff. Eqns, Vol.20, No.3, 2008, pp.669--697. View text
129. Cheban D. N., Mammana C. and Michetti E., Global Attractors of Quasi-Linear Non-Autonomous Difference Equations. Bulletinul Academiei de Stiinte a Republicii Moldova. Matematica, No.1 (56), 2008, pp.84--104. View text
2007
128. D. Cheban and C. Mammana. Invariant Manifolds and Almost Automorphic Solutions of Second-Order Monotone Equations. Proceedings: EQUADIFF 11. International cnference on differential equations: Czecho-Slovak series. Comenius University, Bratislava, SLOVAKIA,July 25 - 29, 2007, pp.141-147. View text
127. D. Cheban and C. Mammana. Continuous Dependence of Attractors on Parameters of Non-Autonomous Dynamical Systems and Infinite Iterated Function Systems. Discrete and Continuous Dynamical Systems, Vol. 18, No.2-3, 2007, 499-515. View text
2006
126. D. Cheban. Markus-Yamabe Conjecture. Communications, The 14-th Conference of Applied and Industrial Mathematics. Chisinau, August 17-19, 2006, pp.107-110.
125. D. Cheban and C. Mammana. Global Attractors and Almost Periodic Solutions of V-Monotone Non-Autonomous Dynamical Systems. International Congress of Mathematicians, Madrid 2006. Abstracts (Posters, Short Communications, Mathematical Software, Other Activities), p.373.
124. D. Cheban, C. Mammana and E. Michetti. Global Attractors of Non-Autonomous Difference Equations. 6th AIMS International Conference on Dynamical Systems and Differential Equations, June 25-28, 2006, Poitiers, FRANCE, p.103.
123. D. Cheban and C. Mammana. Compact Global Attractors of Discrete Inclusions. Nonlinear Analysis, v.65 , No.8, 2006, pp.1669-1687. View text
122. D. Cheban and C. Mammana. Almost Periodic Solutions of Non-Autonomous Beverton-Holt Difference Equations. WSEAS TRANSACTIONS on SYSTEMS, Issue 5, Volume 5, May 2006, pp.1048-1053. View text
2005
121. Cheban D. N., Dynamical systems in the works of moldavian mathematicians.Elemente de istorie a matematicii si matematica in republica Moldova (Editors: Choban M. M. and Valuta I. I.). Chisinau, 2006, pp.361--367.
120. D. Cheban and C. Mammana. Invariant Manifolds, Almost Periodic and Almost Automorphic Solutions of Second-Order Monotone Equations. International Journal of Evolution Equations, Vol.1, No.4, 2005, pp.319-343.View text
119. D. Cheban and C. Mammana. Invariant Manifolds and Almost Automorphic Solutions of Second-Order Monotone Equations. Book of Abstracts EQUADIFF 11. International conference on differential equations: Czecho-Slovak series. Comenius University, Bratislava, SLOVAKIA, July 25 - 29, 2005, pp.14.
118. D. Cheban and C. Mammana. Absolute Asymptotic Stability of Discrete Linear Inclusions. Buletinul Academiei de Stiinte a Republicii Moldova. Matematica, No.1 (47), 2005, pp.43-68. View text
117. D. Cheban and C. Mammana. Relation between Different Types of Global Attractors of Non-Autonomous Set-Valued Dynamical Systems. Set-Valued Analysis, Vol.13, No.3, 2005, pp.291-321. View text
116. D. Cheban and C. Mammana. Invariant Manifolds, Global Attractors and Almost Periodic Solutions of Non-autonomous Difference Equations. Equadiff 2003. Proceedings of the International Conference on Differential Equations. Hasselt, Belgium 22-26 July 2003. Singapore: World Scientific, 2005, pp.833-838. View text
115. D. Cheban and C. Mammana. Relation Between Different Types of Stabilities of Linear Non-Autonomous Dynamical Systems. Proceedings of International Conference: 2004-Dynamical Systems and Applications, pp.205-227, July 5-10, 2005, Antalya, Turkey. View text
2004
114. D. Cheban and C. Mammana. Invariant Manifolds, Global Attractors and Almost Periodic Solutions of Non-autonomous Difference Equations. Nonlinear Analysis, Series A, vol.56, No.4, 2004, pp.465-484. View text
113. D. Cheban. Global Attractors of Nonautonomous Dissipative Dynamical Systems. Interdisciplinary Mathematical Sciences 1. River Edge, NJ: World Scientific, 2004, xxiii+502 pp.
112. D. Cheban and C. Mammana. Relation between Different Types of Stabilities for Linear Non-Autonomous Dynamical Systems. International Conference "Dynamical Systems and Applications - 2004". Book of Abstracts. July 05-10, 2004, Antalya, Turkey, p.32.
111. D. Cheban and C. Mammana. Compact Global Chaotic Attractors of Discrete Control Systems. International Conference "Differential Equations and Related Topics". Book of Abstracts. Moscow, May 16-22, 2004, p.44.
110. D. Cheban and C. Mammana. Asymptotic Stability of Autonomous and Non-Autonomous Discrete Linear Inclusions. Buletinul Academiei de Stiinte a Republicii Moldova. Matematica, No.3 (46), 2004, pp.41-52. View text
109. D. Cheban and J. Duan, Almost Periodic Solutions and Global Attractors of Nonautonomous Navier-Stokes Equations. Journal of Dynamics and Differential Equations, vol.16, No.1, 2004, pp. 1-34. View text
108. D. Cheban and J. Duan, Recurrent Motions and Global Attractors of Nonautonomous Lorenz Systems. Dynamical Systems: An International Journal, vol.19, No.1, 2004, pp.41-59. View text
2003
107. D. Cheban, J. Duan and A. Gherco. Generalization of Second Bogoliubov's Theorem for Non-Almost Periodic Systems. Nonlinear Analys: Real World Applications, vol.4, No.4, 2003, pp.599-613. View text
106. D. Cheban and C. Mammana. Upper Semicontinuity of Attractors of Set-Valued Nonautonomous Dynamical Systems. International Journal of Pure and Applied Mathematics, vol.4, No.5, 2003, pp.385-418. View text
105. D. Cheban, P. Kloeden and B. Schmalfuss. Global Attractors of V-monotone Nonautonomous Dynamical Systems. Bulletin of Academy of Sciences of Republic of Moldova. Mathematics, 2003. No.1(41), pp.47-57. View text
104. V.P. Bongolan-Walsh, D. Cheban and J. Duan. Recurrent Motions in the Nonautonomous Navier-Stokes System. Continuous and Disrete Dynamical Systems - serie B, vol.3, No.2, 2003, pp.255-262. View text
103. D. Cheban, J. Duan and A. Gherco. Heteroclinic Points of Multi-dimensional Dynamical Systems. Electronic Journal of Differential Equations, vol.2003(2003), No.41, pp.1-21. View text
102. D. Cheban. Global Attractors of Dynamical Systems. Electronic Journal Differential Equations and Control Processes. vol.3, pp.1-56. View text (in Russian)
101. D. Cheban. Almost Periodic Solutions of Monotone Almost Periodic Equations. International Conference on Differential Equations. Equadiff'03 (July 22-26, Hasselt, BELGIUM), p.25.
100. D. Cheban and C. Mammana. Invariant manifolds, Global attractors and Almost Periodic Solutions of Non-autonomous Difference Equations. International Conference on Differential Equations. Equadiff'03 (July 22-26, Hasselt, BELGIUM), p.25.
2002
99. D. Cheban, P. Kloeden and B. Schmalfuss. The relation between Pullback and Global Attractors of Nonautonomous Dynamical Systems. Nonlinear Dynamics and Systems Theory, vol.2, No.2(2002), pp.9-28. View text
98. D. Cheban. Upper Semicontinuity of Attractors of Nonautonomous Dynamical Systems for Small Perturbations. Electronic Journal of Differential Equations, vol.2002(2002), No.42, pp.1-21. View text
97. D. Cheban. Global Attractors of Nonautonomous Dynamical Systems. (Press of the State University of Moldova, Chisinau, MOLDOVA. (in Russian) View text
96. D. Cheban. Asymptotical Almost Periodic Solutions of Differential Equations. (Press of the State University of Moldova, Chisinau, MOLDOVA. (in Russian) View text
2001
95. D. Cheban. Global Attractors of Quasihomogeneous Nonautonomous Dynamical Systems. Electronic Journal of Differential Equations, vol.2001(2001), No.10, pp.1-19. View text
94. D. Cheban. Global Attractors of Quasihomogeneous Nonautonomous Dynamical Systems. Proceedings of the International Conference on Dynamical Systems and Differential Equations (May 18-21, Kennesaw, USA). Discrete and Continuous Dynamical Systems, 2001, Added Volume, pp.96-101.
93. D. Cheban. The Ordinary Differential Equations. Problem Solver. (Press of the State University of Moldova, Chisinau, MOLDOVA), 408 p.
92. D. Cheban. Uniform Exponential Stability of Linear Periodic Systems in Banach Spaces. Electronic Journal of Differential Equations, vol. 2001 (2001), No.03, pp.1-12. View text
91. D. Cheban, B. Schmalfuss and P. Kloeden. Pullback Attractors in Dissipative Nonautonomous Differential Equations under Discretization. Journal of Dynamics and Differential Equations, vol.13, No.1, pp.185-213. View text
90. D. Cheban. An analog of the Cameron-Johnson's Theorem for Linear C-analytic Equations in Hilbert space. Proceedings of the International Conference on Differential Equations and Related Topics dedicated to the Centenary Anniversary of Ivan Petrovskii (May 22-27, Moscow, RUSSIA), pp.86-87.
89. D. Cheban. Global Pullback Atttactors of C-Analytic Nonautonomous Dynamical Systems. First Conference of the Mathematical Society of Republic of Moldova (August 16-18, Chisinau, MOLDOVA). (in Russian)
88. D. Cheban. Global Pullback Atttactors of C-Analytic Nonautonomous Dynamical Systems. Stochastics and Dynamics. vol.1(2001), No.4, pp.511-535.View text
87. D. Cheban. Global Pullback Atttactors of C-Analytic Cocycles. Bulletin of Academy of Sciences of Republic of Moldova. Mathematics, No.2(36), pp.65-74.
86. D. Ceban and A. Suba. Problemele de Ecuatii Diferentiale. Press of the State University of Moldova (Chisinau, MOLDOVA). (in Russian)
2000
85. D. Cheban, P. Kloeden and B. Schmalfuss. Pullbac Attractors under Discretization. Proceeding EQUADIFF'99 (Berlin, GERMANY), vol.2 (Edited by B. Fiedler, K. Groger and J. Sprekels). World Scientific 2000, pp.1024-1029.
84. D. Cheban. Uniform Exponential Stability of Linear Almost Periodic Systems in Banach spaces. Electronic Journal of Differential Equations, vol.2000(2000), No.29, pp.1-18. View text
83. D. Cheban. The Analog of the Cameron-Johnson's Theorem for Linear C-analytic Equations in Hilbert Space. Mathematical Notes, vol.68, No.6 (2000), pp.935-938. View text
1999
82. I. Bronshteyn, D. Cheban and N. Vulpe. Boris Alexeevich Shcherbakov (A tribute in honor of his 75th birthday). Bul. Acad. Stiinte Repub. Mold., Mat. 1999, no. 1, pp.130--134.
81. D. Cheban B. Schmalfuss. Global Attractors of Nonautonomous Disperse Dynamical Systems and Differential Inclusions. Bulletin of Academy of sciences of Republic of Moldova. Mathematics, 1999, No.1(29), pp.3-22. View text
80. D. Cheban. Global Attractors of Non-autonomous Dynamical Systems and Almost Periodic Limit Regimes of Some Classes of Evolutionary Equations. Anale Faculatii de Matimatica si Informatica, vol.1, 1999, pp.1-26. View text
79. D. Cheban. Relations Between Different Types of Stability of Linear Almost Periodic Systems in Banach Spaces. Electronic Journal of Differential Equations, vol.1999 (1999), No.46, pp.1-9. View text
1998
78. Cheban D. N., Letter to the editors: ``Bounded solutions of linear almost periodic systems of differential equations''[Izv. Ross. Akad. Nauk Ser. Mat. 62 (1998), no. 3, 155--174.] Izv. Ross. Akad. Nauk Ser. Mat. 63 (1999), no. 3, 224.
77. D. Cheban. Global Attractors of Infinite-dimensional Non-autonomous Dynamical Systems, II. Bulletin of Academy of Sciences of Republic of Moldova. Mathematics, 1998, No.2 (27), p.25-38.
76. D. Cheban. The Asymptotics of Solutions of Infinite-dimensional Homogeneous Dynamical Systems. Mathematical Notes, 1998, vol.63, No.1, p.115-126. View text
75. D. Cheban. Bounded Solutions of Linear Almost Periodic Systems of Differential Equations. Bulletin of Academy of Sciences of Russia, Mathematics Series, 1998, vol.62, No.3, p.155-174. View text
1997
74. D. Cheban. Global Attractors of Infinite-dimensional Nonautonomous Dynamical Systems, I. Bulletin of Academy of Sciences of Republic of Moldova. Mathematics, 1997, No.3 (25), p.42-55. View text
73. D. Cheban. Higher Mathematics (brief handbook). Evrika (Chisinau, MOLDOVA), 1997, 70 p. (in Russian).
72. D. Cheban. Higher Mathematics (brief handbook). Evrika (Chisinau, MOLDOVA), 1997, 70 p. (in Romanian).
1995
71. D. Cheban. On the Structure of Compact Asymptotically Stable Sets of C-analytic Almost Periodic Systems. Abstract of the speech at Scientific Conference at Moldavian State University (Chisinau, MOLDOVA), 1995.
70. D. Cheban. Converse of the Lyapunov's theorem on Asymptotic Stability by the First Approximation for C-analytic Non-autonomous Systems. Mathematical Notes, 1995, vol.57, No.1, p.139-142.
69. D. Cheban. Global Attractors of Infinite-dimensional Systems, II. Bulletin of Academy of Sciences of Republic of Moldova. Mathematics, 1995, No.1 (17), p.28-37.
68. D. Cheban and D. Fakeeh. Global Attractors of Infinite-dimensional Systems, III. Bulletin of Academy of sciences of Republic of Moldova. Mathematics, 1995, No.2-3 (18-19), p.3-13.
67. D. Cheban. On the Structure of Compact Asymptotically Stable Sets of C-analytic Almost Periodic Systems. Differential Equations, 1995, vol.31, No.12, p.2025-2028.
1994
66. D. Cheban and D. Fakeeh. Global Attractors of Dynamical Systems without Uniqueness. Sigma (Chisinau, MOLDOVA), 1994. (in Russian)
65. D. Cheban. Global Attractors of Infinite-dimensional Systems, I. Bulletin of Academy of Sciences of Republic of Moldova. Mathematics, 1994, No.2 (15), p.12-21.
1993
64. D. Cheban and D. Fakeeh. Connectivity of the Levinson's Centre of Compactly Dissipative Dynamical System without Uniqueness. Bulletin of Academy of Sciences of Republic of Moldova. Mathematics, 1993, No.1 (11), p.15-22.
1992
63. D. Cheban. Some Problems of the Theory of Dissipative Dynamical Systems, II.Functional Methods in the Theory of Differential Equations (Mathematical researches, issue 124), p.106-122.
62. D. Cheban and D. Fakeeh. Asymptotic Stability of Compact Semi-invariant Sets of Disperse Dynamical Systems and Dynamical Systems with Multi-dimensional Time. Preprint, Mold NIINTI, 1992, No.1276.
61. D. Cheban. Locally Dissipative Dynamical Systems and Some of Their Applications. Bulletin of Academy of Sciences of Republic of Moldova. Mathematics, 1992, No.1 (8), p.7-14.
60. D. Cheban and D. Fakeeh. Disperse Dissipative Dynamical Systems. Abstracts of 8th International Conference EquaDiff-92 (1992,Samarkand, USSR), p.115.
59. D. Cheban. Global Uniform Asymptotic Stability of Solutions of Nonautonomous Systems. Abstract of the speech at the Republican Scientifically-methodical Conference (1992, Odessa, UKRAINE), vol. 1, p.23.
1991
58. D. Cheban and D. Fakeeh. Discontinuous Dissipative Dynamical Systems.Collection "Discontinuous dynamical systems", abstract of the speech at the Scientific School-seminar (September 17-20, 1991, Uzhgorod, UKRAINE), p.69.
57. D. Cheban and D. Fakeeh. Dissipative Dynamical Systems with Multi-dimensional Time and Disperse Dynamical Systems. Speech thesis at scientific conference, preprint, Mold NIINTI, 1991, No.1229.
56. D. Cheban. Dissipative Functional Differential Equations. Bulletin of Academy of Sciences of Republic of Moldova. Mathematics, 1991, No.2 (6), p.3-12.
55. D. Cheban. Biasymptotically Almost Periodic Solutions of Differential Equations. Abstracts of the International Conference of Differential Equations (1991, Moscow, RUSSIA), Uspekhi Matematicheskikh Nauk, vol. 46, p.199.
1990
54. D. Cheban. On the Structure of the Levinson's Centre of Dissipative Dynamical Systems with the Hyperbolicity Condition on the Closure of a Set of Recurrent Motions. Differential Equations, vol. 26, No.5, p.913-914.
53. D. Cheban. On the Structure of the Levinson's Centre of a Dissipative Dynamical System with the Hyperbolicity Condition on the Set of Recurrent Motions. Bulletin of Academy of Sciences of Republic of Moldova. Mathematics, 1990, No.2 (3), p.34-43.
52. D. Cheban. Homoclinical Trajectories of Nonautonomous Systems. Abstract of the speech at the 2nd All-Union conference on Nonlinear Oscillations of Mechanical Systems (1990, Gorky, USSR). (in Russian)
51. D. Cheban and D. Fakeeh. Dissipative Dynamical Systems with Multi-dimensional Time and Disperse Dynamical Systems. Speech thesis at Scientific Conference at the State University of Moldova (1990, Chisinau, USSR). (in Russian)
50. D. Cheban. Integral equations. Teaching-methodical manual at the section "Differential and integral equations" of the course of high mathematics for the students of the faculty of physics (1990, State University of Moldova). (in Russian)
1989
49. D. Cheban. Nonautonomous Dissipative Dynamical Systems with a Hyperbolic Subset of Centre (one-dimensional case). Mathematical Notes, vol. 45, No.6, p. 93-98.
48. D. Cheban. On One problem of Hale. Abstract of the speech at the 7th All-Union Conference of the Qualitative Theory of Differential Equations (1989, Riga, USSR), p.227.
47. D. Cheban. Some Problems of the Theory of Dissipative Dynamical Systems, I.Differential equations and mathematical physics (Chisinau, USSR, "Shtiintsa"), p. 147-163.
46. D. Cheban. On One Problem of Hale. Mathematical Notes, vol. 46, No.1, p. 120-121.
45. D. Cheban. Nonautonomous Dynamical Systems with Convergence. Differential Equations, vol. 25, No.9, p.1633-1635.
1988
44. D. Cheban. Impulse and Difference Dissipative Systems with Periodic Coefficients. Research on Differential Equations and Mathematical Analysis (Chisinau, "Shtiintsa"), p.127-142.
43. D. Cheban. Averaging Principle on the Semi-axis for Dissipative Systems.Dynamical Systems and Equations of Mathematical Physics (Chisinau, "Shtiintsa"), p.149-161.
42. D. Cheban. On the Structure of the Levinson Centre's of Dissipative Dynamical Systems. Differential Equations, vol. 24, No.6, p.1086.
41. D. Cheban. Nonautonomous Dissipative Dynamical Systems. Method of Lyapunov Functions. Problems of the Qualitative Theory of Differential Equations, (Novosibirsk, USSR), p.56-64.
40. D. Cheban. On the Structure of the Levinson's Centre of Dissipative Dynamical Systems. Differential Equations, vol. 24, No.9, p.1564-1576.
1987
39. D. Cheban. Nonautonomous Dissipative Dynamical Systems. Method of Lyapunov functions. Differential Equations, vol. 23, No.3, p.464-474.
38. D. Cheban. Boundedness, Dissipativity and Almost Periodicity of Solutions of Linear and Weakly Nonlinear Systems of Differential Equations. Dynamical Systems and Boundary Value Problems (Chisinau, "Shtiintsa"), p.143-159.
37. D. Cheban and B. Scherbakov. Barbashin-Krasovsky's Theorem for Nonautonomous Dynamical Systems. Abstract of the speech at the 5th All-Union Chetaev Conference on Analytic Mechanics, Stability and Motion Control (1987, Kazan, USSR), p.106.
1986
36. D. Cheban. Nonautonomous Dissipative Dynamical Systems. Soviet Mathematical Report, vol. 33, No.1, p.207-210.
35. D. Cheban. One Test of the Convergence of Nonlinear Systems in Hilbert Spaces. Differential Equations and Their Invariants (Chisinau, "Shtiintsa"), p.136-143.
34. D. Cheban. Test of the Convergence of Nonlinear Systems by the First Approximation. Differential Equations and Their Invariants (Chisinau, "Shtiintsa"), p.144-150.
33. D. Cheban. Nonautonomous Dynamical Systems. Lyapunov Functions' Method.Abstract of the speech at the 6th All-Union Conference on Qualitative Theory of Differential Equations (1986, Irkutsk, USSR), p.197-198.
32. D. Cheban. C-analytic Dissipative Dynamical Systems. Differential Equations, vol. 22, No.11, p.1915-1922.
31. D. Cheban. On Nonautonomous Dissipative Dynamical Systems. Uspekhi Matematicheskikh Nauk, vol. 41, No.4 (250), p.169.
30. D. Cheban. Quasiperiodic Solutions of Dissipative Systems with Quasiperiodic Coefficients. Differential Equations, vol. 22, No.2, p.267-278.
1985
29. D. Cheban. On the Second Lyapunov's Method in the Theory of Stability of Dynamical Systems. Differential Equations and Dynamical Systems (1985, Chisinau, "Shtiintsa"), p.139-147.
28. D. Cheban. Nonautonomous Dissipative Dynamical Systems. Differential Equations, vol. 21, No.5, p.913-914.
27. D. Cheban. C-analytic Dissipative Dynamical Systems. Abstracts of the 3rd International Conference of Differential Equations and Applications (1985, Roosse, BULGARIA), p.141.
1984
26. D. Cheban. Dynamical Systems of Translations in the Spaces of Functions and Distributions. Research on the Functional analysis and differential equations. Kishinev, ''Shtiintsa'', 1984, p. 130-142.
25. D. Cheban. Periodic and Quasiperiodic Solutions of Linear Differential Equations. Differential Equations, vol. 20, No.8, p.1455-1456.
24. D. Cheban. On the Stability of Levinson's Centre of Nonautonomous Dissipative Dynamical Systems. Differential Equations, vol. 20, No.11, p.2016-2018.
1983
23. D. Cheban. Compatible Solutions of the Differential Equation x’’=f(t,x) in a Hilbert Space. Research on Differential Equations (1983, Chisinau, "Shtiintsa"), p.101-111.
22. D. Cheban. Compatible Solutions of Linear Partial Differential Equations.Research on Differential Equations (Chisinau, "Shtiintsa"), p.112-122.
21. D. Cheban. Dissipative Dynamical Systems. Abstract of the speech at the 2nd Scientific Conference on Differential Equations (1983, University of Sciences and Technology, Alger, ALGERIE), p.40-41.
1981
19. D. Cheban and I. Cheban. Anti Almost Periodic Solutions of Differential Equations. Research on the Functional Analysis and Differential Equations (1981, Chisinau, "Shtiintsa"), p.100-108.
18. D. Cheban and A. Shipkov. Bounded Solutions of Differential Equations with Complex Time. Research on the Functional Analysis and Differential Equations (1981, Chisinau, "Shtiintsa"), p.116-123.
1980
17. D. Cheban. Some Theorems of Injection of Dynamical Systems. Algebraic Invariants of Dynamical Systems (1980, Chisinau, "Shtiintsa"), p.118-122.
16. D. Cheban. Theory of Linear Differential Equations (selected chapters). 1980, Chisinau, "Shtiintsa". (in Russian)
1979
15. D. Cheban and B. Scherbakov. Asymptotically Almost Periodic Solutions of Linear and Quasi-linear Differential Equations. Speech thesis at the All-Union Conference on Asymptotic Methods of the Theory of Singularly-perturbed Equations, part 1 (1981, Alma-Ata, USSR), p.164-165.
14. D. Cheban. Linear Differential Equations Satisfying the Condition of Favard.Abstract of the speech at the 5th All-Union Conference of the Qualitative Theory of Differential Equations (1979, Chisinau, USSR), p.181-182.
13. D. Cheban and I. Cheban. Anti Almost Periodic Solutions of Differential Equations. Abstract of the speech at the 5th All-Union Conference of the Qualitative Theory of Differential Equations (1979, Chisinau, USSR), p.181-182.
1978
12. D. Cheban. Some Properties of Linear Systems of Differential Equations with Asymptotically Almost Periodic Coefficients. Differential Equations, vol.14, No.5, p.940-942.
11. D. Cheban and V. Amelkin. Periodic Solutions of Differentially-operational Equations. Abstract of the speech at the 4th All-Union School of the Theory of Operators in the Functional Spaces (1978, Minsk, USSR), p.9-10.
10. D. Cheban and V. Chernii. On a Question of Exponential Dichotomy on Semi-axis of Solutions of Differential Equations. Differential Equations, vol. 14, No.11, p.2012-2018.
1977
9. D. Cheban. On the Boundedness and Asymptotic Almost Periodicity of Solutions of Differential Equations Solutions. Mathematical Sciences, No.1, p.72-76.
8. D. Cheban. On the Comparability of Points of Dynamical Systems with Regard to the Character of the Recurrence Property in the Limit. Mathematical Sciences, No.1, p.66-71.
7. D. Cheban and B. Scherbakov. Poisson Asymptotic Stability of Motions of Dynamical Systems and their Comparability with Regard to the Recurrence Property in the Limit. Differential Equations, vol. 13, No.5, p. 898-906.
6. D. Cheban. Poisson Asymptotic Stability of Solutions of Operational Equations.Differential Equations, vol.13, No.8, p.978-983.
5. D. Cheban. On the Problem of Structural Stability of Linear Systems of Differential Equations with Almost Periodic Coefficients. Differential Equations, vol.13, No.11, p.2099-2101.
1976
4. D. Cheban and B. Scherbakov. Poisson Asymptotically Stable Motions of Dynamical Systems. Abstract of the speech at the 4th All-Union Conference on the Qualitative Theory of Differential Equations (1976, Ryazan, USSR), p.173.
1974
3. D. Cheban. Uniformly Isochron Solutions of Linear System of Differential Equations. Mathematical researches, vol.32, No.2, p.204-213.
2. D. Cheban. Poisson Asymptotically Stable Solutions of Non-linear Differential Eequations. Mathematical researches, vol.37, No.3, p.231-237.
1973
1. D. Cheban. On the Asymptotic Behavior of Solutions of Differential Equations.Abstract of the speech at the 3rd All-Union Conference on the Qualitative Theory of Differential Equations (1973, Samarkand, USSR), p.216.
2019
27. Cheban D. N., I. U. Bronshtein's Conjecture for Monotone Nonautonomous Dynamical Systems. Discrete and Continuous Dynamical Systems: series B, 2019, Vol.24, No.3, pp.1095-1113. View text
26. Cheban D. N., Bohr/Levitan Almost Periodic and Almost Automorphic Solutions of Linear Stochastic Differential Equations without Favard's Separation Condition. Chapter in book "Advance in Evolution Equations: Evolution Equations: Almost Periodicity and Beyond". Editors: G. N'Guerekata, Jin Lian and Alexander Pankov. Dedicated to the memory of V. V. Zhikov. Nova Science Publishers, New York, 2019, ix+327 pp, pp.155-206. View text
2018
25. Cheban D. N., Levitan/Bohr Almost Periodic and Almost Automorphic Solutions of the Scalar Differential Equations. Dynamical Systems: An International Journal. 2018, Vol.33, No.4, pp.667-690. View text
2017
24. Cheban D. N., Linear Stochastic Differential Equations and Nonautonomous Dynamical Systems. Proceedings CMSM4, The Fourth Conference of Mathematical Society of the Republic of Moldova: dedicated to the centenary of Vladimir Andrunachievici (1917-1997). June 28 –July 2, Chisinau 2017, pp.255-258. View text
23. Cheban D. N., Bohr/Levitan Almost Periodic and Almost Automorphic Solutions of Linear Stochastic Differential Equations without Favard's Separation Condition. Internationl Journal of Evolution Equations, 2017, Vol. 10, No.3-4, pp.349-389. (special issue dedicated to the memory of V. V. Zhikov). View text
2016
22. Cheban D. N., Levitan/Bohr Almost Periodic and Almost Automorphic Solutions of the Scalar Differential Equations. Mathematics & Information Technologies: Research and Education (MITRE-2016), Chişinău, Republic of Moldova, June 23-26, 2016, pp.18-19.
21. Cheban D. N., Mammana C. and Michetti E., The Structure of Global Attractors for Non-Autonomous Perturbations of Discrete Gradient-Like Dynamical Systems. Patterns of Dynamics: Conference in Honor of Bernold Fiedler, Berlin July 25--29, 2016. Book of Abstracts and Program, p.28.
20. Cheban D. N., Mammana C. and Michetti E., The Structure of Global Attractors for Non-Autonomous Perturbations of Discrete Gradient-Like Dynamical Systems. Journal of Difference Equations and Applications, Vol.22, No.11, 2016, pp.1673--1697. View text
2015
19. Cheban D. N., Mammana C. and Michetti E., Global attractors of non-autonomous difference equations: A growth model with endogenous population growth. Dynamical Systems and Applications, 24 (2015), no.1-2, pp.17-33. View text
18. Cheban D. N., The Structure of Global Attractors for Non-Autonomous Gradient-Like Dynamical Systems. International conferences "Mathematics & Information Technologies: Research and Eduacation (MITRE-2015). Abstracts, Chisinau, July 2-4, 2015, p.21-22. View text
17. Cheban D. N., Relation between Levinson center, chain recurrent set and center of Birkhoff for compact dissipative dynamical systems. Bulletinul Academiei de Stiinte a Republicii Moldova. Matematica, No.2 (78), 2015, pp.42--60. View text
16. Cheban D.N. and Kalitine B.S., On the stability of gradient-like systems. International mathematical conference "Sixth Bogdanov reads on ordinary differential equations", December 7-10, 2015. Abstracts of conference, Vol.1, Minsk, 2015, pp.90-92.
15. Cheban D.N. Global Attractors of Nonautonomous Dynamical and Control Systems. Interdisciplinary Mathematical Sciences, vol.18, River Edge, NJ: World Scientific, 2015, xxv+589 pp.
14. Cheban David, Belitskii--Lyubich Conjecture for C-Analytic Dynamical Systems. DISCRETE AND CONTINUOUS DYNAMICAL SYSTEMS SERIES, series B, Vol. 20, No. 3, 2015 pp. 945--959. View text
2014
13. Cheban D. N. and Kalitine B. S., On the Stability of Gradient-Like Systems. International Journal of Evolution Equations, Vol.9, No.2, 2014, pp.151-166. View text
12. Cheban D. N., Compact Global Attractors of Non-autonomous Gradient-Like Dynamical Systems. Buletinul Academiei de Stiinte a Republicii Moldova. Matematica, No.2 (75), 2014, pp.85--101. View text
11. Cheban D. N., Birkhoff's center of compact dissipative dynamical system. The Third Conference of Mathematical Society of the republic of Moldova, 19-23 August, 2014, Chisinau, Moldova. Proceedings IMCS-50. Chisinau, Inst. Math Comp. Science, Academy of Sciences of Moldova, 2014. p.239-242. View text
10. Cheban D. N., Markus-Yamabe Conjecture for Non-Autonomous Systems. Nonlinear Analysis: TMA, Volume 95, 2014, pp.202–218. View text
9. Cheban D. N., Compact Global Chaotic Attractors of Discrete Control Systems. Nonautonomous and Stochastic Dynamical Systems, DOI: 10.2478/msds-2013-0002, NSDS, 2014, pp.10-25. View text
2013
8. Cheban D. N., Belitskii--Lyubich Conjecture for C-Analytic Dynamical Systems. Abstracts of the international conferences. Mathematics & Information Technologies: Research and Education (MITRE-2013). August 18-22, 2013, Chisinau (Republic of Moldova), pp.28-29. View text
7. Caraballo Tomas and Cheban David, Almost Periodic Motions in Semi-Group Dynamical Systems and Bohr/Levitan almost periodic solutions of Linear difference equations without Favard's separation condition. Journal of Difference Equations and Applications, Volume 19, Issue 6, 2013, pp.872-897. View text
6. Cheban D. N., Asymptotic Stability of Non-autonomus Dynamical Systems. Buletinul Academiei de Stiinte a Republicii Moldova. Matematica, No.1 (71), 2013, pp.11-44. View text
5. Cheban D. N. and Mammana C., Markus-Sell's Theorem for Asymptotically Almost Periodic Systems. Chapter in the Book „Dynamical Systems: Theory, Applications and Future Directions". Editor: Jean Michel Tchuenche (Atlanta, GA , USA). Nova Science Publishers, 2013, pp.1--20. View text
4. Cheban D. N., Lyapunov Stability of Non-Autonomous Dynamical Systems. Nova Science Publishers Inc, 2013, xii+275 pp.
3. Cheban D. N., Mammana C. and Michetti E., Global attractors of quasi-linear non-autonomous difference equations: A growth model with endogenous population growth. Nonlinear Analysis: series B, 14 (2013) pp.1716 -1731. View text
2. Caraballo Tomas and Cheban David, Almost Periodic and Almost Automorphic Solutions of Linear Differential Equations. DCDS-A, vol. 33, no. 5, 2013, pp.1857-1882. View text
1. Caraballo Tomas and Cheban David, On the Structure of the Global Attractor for Infinite-Dimensional Non-autonomous Dynamical Systems with Weak Convergence. Communications on Pure and Applied Analysis (CPAA), vol.12, no.1, 2013, pp. 281-302 View text
131. Cheban D. N., I. U. Bronshtein's Conjecture for Monotone Nonautonomous Dynamical Systems. Discrete and Continuous Dynamical Systems: series B, 2019, Vol.24, No.3, pp.1095-1113. View text
130. Cheban D. N., Bohr/Levitan Almost Periodic and Almost Automorphic Solutions of Linear Stochastic Differential Equations without Favard's Separation Condition. Chapter in book "Advance in Evolution Equations: Evolution Equations: Almost Periodicity and Beyond". Editors: G. N'Guerekata, Jin Lian and Alexander Pankov. Dedicated to the memory of V. V. Zhikov. Nova Science Publishers, New York, 2019, ix+327 pp, pp.155-206. View text
129. Cheban D. N., Levitan/Bohr Almost Periodic and Almost Automorphic Solutions of the Scalar Differential Equations. Dynamical Systems: An International Journal. 2018, Vol.33, No.4, pp.667-690. View text
128. Cheban D. N., Bohr/Levitan Almost Periodic and Almost Automorphic Solutions of Linear Stochastic Differential Equations without Favard's Separation Condition. Internationl Journal of Evolution Equations, 2017, Vol. 10, No.3-4, pp.349-389. (special issue dedicated to the memory of V. V. Zhikov). View text
127. Cheban D. N., Mammana C. and Michetti E., The Structure of Global Attractors for Non-Autonomous Perturbations of Discrete Gradient-Like Dynamical Systems. Journal of Difference Equations and Applications, Vol.22, No.11, 2016, pp.1673--1697. View text
126. Cheban D. N., Mammana C. and Michetti E., Global attractors of non-autonomous difference equations: A growth model with endogenous population growth. Dynamical Systems and Applications, 24 (2015), no.1-2, pp.17-33. View text
125. Cheban D. N., The Structure of Global Attractors for Non-Autonomous Gradient-Like Dynamical Systems. International conferences "Mathematics & Information Technologies: Research and Eduacation (MITRE-2015). Abstracts, Chisinau, July 2-4, 2015, p.21-22. View text
124. Cheban D. N., Relation between Levinson center, chain recurrent set and center of Birkhoff for compact dissipative dynamical systems.Buletinul Academiei de Stiinte a Republicii Moldova. Matematica, No.2 (78), 2015, pp.42--60. View text
123. Cheban D.N. and Kalitine B.S., On the stability of gradient-like systems. International mathematical conference "Sixth Bogdanov reads on ordinary differential equations", December 7-10, 2015. Abstracts of conference, Vol.1, Minsk, 2015, pp.90-92.
122. Cheban D.N. Global Attractors of Nonautonomous Dynamical and Control Systems. Interdisciplinary Mathematical Sciences, vol.18, River Edge, NJ: World Scientific, 2015, xxv+589 pp.
121. Cheban David, Belitskii--Lyubich Conjecture for C-Analytic Dynamical Systems. DISCRETE AND CONTINUOUS DYNAMICAL SYSTEMS SERIES, series B, Vol. 20, No. 3, 2015 pp. 945--959. View text
120. Cheban D. N. and Kalitine B. S., On the Stability of Gradient-Like Systems. International Journal of Evolution Equations, Vol.9, No.2, 2014, pp.151-166. View text
119. Cheban D. N., Compact Global Attractors of Non-autonomus Gradient-Like Dynamical Systems. Buletinul Academiei de Stiinte a Republicii Moldova. Matematica, No.2 (75), 2014, pp.85--101. View text
118. Cheban D. N., Markus-Yamabe Conjecture for Non-Autonomous Systems. Nonlinear Analysis: TMA, Volume 95, 2014, pp.202–218. View text
117. Cheban D. N., Compact Global Chaotic Attractors of Discrete Control Systems. Nonautonomous and Stochastic Dynamical Systems, DOI: 10.2478/msds-2013-0002 • NSDS • 2014 • pp.10-25. View text
116. Cheban D. N., Asymptotic Stability of Non-autonomus Dynamical Systems. Buletinul Academiei de Stiinte a Republicii Moldova. Matematica, No.1 (71), 2013, pp.11-44. View text
115. Cheban D. N. and Mammana C., Markus-Sell's Theorem for Asymptotically Almost Periodic Systems. Chapter in the Book „Dynamical Systems: Theory, Applications and Future Directions". Editor: Jean Michel Tchuenche (Atlanta, GA , USA). Nova Science Publishers, 2013, pp.1--20. View text
114. Cheban D. N., Lyapunov Stability of Non-Autonomous Dynamical Systems. Nova Science Publishers Inc, 2013, xii+275 pp.
113. Cheban D. N., Mammana C. and Michetti E., Global attractors of quasi-linear non-autonomous difference equations: A growth model with endogenous population growth. Nonlinear Analysis: serie B, 14 (2013) pp.1716 - 1731. View text
112. Caraballo Tomas and Cheban David, Almost Periodic and Almost Automorphic Solutions of Linear Differential Equations. DCDS-A, vol. 33, no. 5, 2013, pp.1857-1882. View text
111. Caraballo Tomas and Cheban David, On the Structure of the Global Attractor for Infinite-Dimensional Non-autonomous Dynamical Systems with Weak Convergence. Communications on Pure and Applied Analysis (CPAA), vol.12, no.1, 2013, pp. 281-302. View text
110. Caraballo Tomas and Cheban David, Almost Periodic Motions in Semi-Group Dynamical Systems and Bohr/Levitan almost periodic solutions of Linear difference equations without Favard's separation condition. Journal of Difference Equations and Applications, Volume 19, Issue 6, 2013, pp.872-897. View text
109. Cheban D. N., Sell's conjecture for Non-Autonomous Dynamical Systems. Nonlinear Analysis: TMA, Vol.75, no.7, 2012, pp.3393-3406. View text
108. Caraballo Tomas and Cheban David, On the Structure of the Global Attractor for Non-autonomous Dynamical Systems with Weak Convergence. Communications in Pure and Applied Analysis, Vol.11, no.2, 2012, pp.809-828. View text
107. Caraballo Tomas and Cheban David, On the Structure of the Global Attractor for Non-autonomous Difference Equations with Weak Convergence. Journal of Difference Equations and Applications, Volume 18, Issue 18, 2012, pp.535-551. View text
106. Caraballo Tomas and Cheban David, Levitan/Bohr Almost Periodic and Almost Automorphic Solutions of Second-Order Monotone Differential Equations. Journal of Differential Equations, Vol.251, No.3, 2011, pp.708-727. View text
105. Caraballo Tomas and Cheban David, Almost Periodic and Asymptotically Almost Periodic Solutions of Lienard Equation. DCDS-B, Vol.16, No.3, 2011, pp.703-717 . View text
104. Cheban D. N., Global Attractors of Set-Valued Dynamical and Control Systems. Nova Science Publishers Inc, New York, 2010, xvii+269 pp.
103. Cheban D. N., Compact Global Attractors of Control Systems. Journal of Dynamical and Control Systems, vol.16 (2010), no.1, pp. 23--44. View text
102. Boularas Driss and Cheban David, Asymptototic Stability of Switching Systems. Electronical Journal of Differential Equations, 2010 (2010), no.21, pp.1-18. View text
101. Cheban D. N. and Mammana C., Invariant Manifolds, Almost Periodic and Almost Automorphic Solutions of Seconde-Order Monotone Equations. New Research on Evolution Equations: Editor G. M. N'Guerekata. Nova Science Publishers, Inc. New York, 2009, pp.123--145. View text
100. Cheban D. N., Kloeden P. E. and Schmalfuss B., Relation Between pullback and Global Attractors of Nonautonomous Dynamical Systems. Advances in Chaotic Dynamics and Applications. Stability, Oscilations and Optimization of Systems. Editors: C. Cruz-Hernandez and A. A. Martynyuk: Vol. 4, Cambridge Scientific Publishers, 2009, 280 pp., pp. View text
99. Cheban D., Asymptotically Almost Periodic Solutions of Differential Equations. Hindawi Publishing Corporation, New York, 2009, ix+186 pp.
98. Caraballo T. and Cheban D., Almost Periodic and Almost Automorphic Solutions of Linear Differential/Difference Equations without Favard's Separation Condition.II J. Differential Equations, 246 (2009), pp.1164--1186. View text
97. Caraballo T. and Cheban D., Almost Periodic and Almost Automorphic Solutions of Linear Differential/Difference Equations without Favard's Separation Condition.I J. Differential Equations, 246 (2009), pp.108--128. View text
96. Cheban D. N., Mammana C. and Michetti E., Global Attractors of Nonautonomous Difference Equations. Buletinul Academiei de Stiinte a Republicii Moldova. Matematica, No.1 (59), 2009, pp.45--57. View text
95. Cheban D. N. and Schmalfuss B., Invariant Manifolds, Global Attractors, Almost Automrphic and Almost Periodic Solutions of Non-Autonomous Differential Equations. J.Math.Anal.Appl., 340, no.1 (2008), 374-393. View text
94. Cheban D. N., Levitan Almost Periodic and Almost Automorphic Solutions of V-monotone Differential Equations. J. Dyn. Diff. Eqns, Vol.20, No.3, 2008, pp.669--697. View text
93. Cheban D. N., Mammana C. and Michetti E., Global Attractors of Quasi-Linear Non-Autonomous Difference Equations. Buletinul Academiei de Stiinte a Republicii Moldova. Matematica, No.1 (56), 2008, pp.84--104. View text
92. D. Cheban and C. Mammana. Invariant Manifolds and Almost Automorphic Solutions of Second-Order Monotone Equations.Proceedins: EQUADIFF 11. International conference on differential equations: Czecho-Slovak series. Comenius University, Bratislava, SLOVAKIA,July 25 - 29, 2007, pp.141-147. View text
91. D. Cheban and C. Mammana. Continuous Dependence of Attractors on Parameters of Non-Autonomous Dynamical Systems and Infinite Iterated Functions Systems. Discrete and Continuous Dynamical Systems, Vol. 18, No.2-3, 2007, 499-515.View text
90. D. Cheban and C. Mammana. Almost Periodic Solutions of Non-Autonomous Beverton-Holt Difference Equations. WSEAS TRANSACTIONS on SYSTEMS, Issue 5, Volume 5, May 2006, pp.1048-1053. View text
89. D. Cheban and C. Mammana. Global Compact Attractors of Discrete Inclusions. Nonlinear Analysis, v.65 , No.8, 2006, pp.1669-1687. View text
88. D. Cheban and C. Mammana. Invariant Manifolds, Almost Periodic and Almost Automorpfic Solutions of Second-Order Monotone Equations. International Journal of Evolution Equations, V.1, No.4, 2005, pp.319-343. View text
87. D. Cheban and C. Mammana. Absolute Asymptotic Stability of Discrete Linear Inclusions. Buletinul Academiei de Stiinte a Republicii Moldova. Matematica, No.1 (47), 2005, pp.43-68. View text
86. D. Cheban and C. Mammana. Relation between Different Types of Global Attractors of Non-Autonomous Set-Valued Dynamical Systems.Set-Valued Analysis, Vol.13, No.3, 2005, pp.291-321. View text
85. D. Cheban and C. Mammana. Invariant Manifolds, Global Attractors and Almost Periodic Solutions of Non-autonomous Difference Equations. Equadiff 2003. Proceedings of the International Conference on Differential Equations. Hasselt, Belgium 22-26 July 2003. Singapore: World Scientific, 2005, pp.833-838. View text
84. D. Cheban and C. Mammana. Relation between Different Types of Stabilities of Linear Non-Autonomous Dynamical Systems. Dynamical Systems and Applications, Proceedings, pp.205-227, July 5-10, 2005, Antalya, Turkey. View text
83. D. Cheban and C. Mammana. Asymptotic Stability of Autonomous and Non-Autonomous Discrete Linear Inclusions. Buletinul Academiei de Stiinte a Republicii Moldova. Matematica, No.3 (46), 2004, pp.41-52. View text
82. D. Cheban. Global Attractors of Nonautonomous Dissipative Dynamical Systems. Interdisciplinary Mathematical Sciences 1. River Edge, NJ: World Scientific, 2004, xxiii+502 pp.
81. D. Cheban and C. Mammana. Invariant Manifolds, Global Attractors and Almost Periodic Solutions of Non-autonomous Difference equations. Nonlinear Analyses, serie A, v.56, No.4, 2004, pp.465-484.
80. D. Cheban and J. Duan. Almost Periodic Solutions and Global Attractors of Non-Atonomous Navier-Stokes Equations. Journal of Dynamics and Differential Equations, v.16, No.1, 2004, pp.1-34.
79. D. Cheban and J. Duan. Recurrent Motions and Global Attractors of Non-Atonomous Lorenz Systems. Dynamical Systems: An International Journal, v.19, No.1, 2004, pp.41-59.
78. D. Cheban, J. Duan and A. Gherco. Generalization of Second Bogoliubov's Theorem for Non-Almost Periodic Systems. Nonlinear Analys: Real World Applications, v.4, No.4, 2003, pp.599-613.
77. D. Cheban and C. Mammana. Upper Semicontinuity of Attractors of Set-Valued Nonautonomous Dynamical Systems. International Journal of Pure and Applied Mathematics, v 4, No.5, 2003, pp.385-418.
76. D. Cheban, P. Kloeden and B. Schmalfuss. Global Attractors of V-monotone Nonautonomous Dynamical Systems. Bulletin of Academy of sciences of Republic of Moldova. Mathematics, 2003. No.1(41), pp.47-57.
75. V. Bongolan-Walsh, D. Cheban and J. Duan. Recurrent Motions in the Nonautonomous Navier-Stokes System. Continuous and Disrete Dynamical Systems - serie B, V.3, No.2, 2003, pp.255-262.
74. D. Cheban, J. Duan and A. Gherco. Heteroclinic Points of Multi-dimensional Dynamical Systems. Electron. J. Diff. Eqns. Vol. 2003(2003), No. 41, pp. 1-21.
73. D. Cheban. Global Attractors of Dynamical Systems. Electronic Journal Differential Equations and Control Processes. V.3, 2003, pp.1-56.
72. D. Cheban, P. Kloeden and B. Schmalfuss. Relation Between Pullback and Global Attractors of Nonautonomous Dynamical Systems.Nonlinear Dynamics and Systems Theory, v.2, No.2(2002), pp.9-28.
71. D. Cheban. Upper Semicontinuity of Attractors of Nonautonomous Dynamical Systems for Small Perturbations. Electron. J. Diff. Eqns., Vol.2002(2002), No.42, pp.1-21.
70. D. Cheban. Global Attractors of Nonautonomous Dynamical Systems Kishinev. State University of Moldova, 2002 (in russian), pp.1-386. View text
69. D. Cheban. Asymptotical Almost Periodic Solutions of Differential Equations. Kishinev, State University of Moldova, 2002 (in Russian), pp.1-227. View text
68. D. Cheban. Global Attractors of Quasihomogeneous Nonautonomous Dynamical Systems. Electron. J. Diff. Eqns., Vol.2002(2002), No.10, pp.1-19.
67. D. Cheban. Global Attractors of Quasihomogeneous Nonautonomous Dynamical Systems. Proceedings of the International Conference on Dynamical Systems and Differential Equations. (May 18-21, 2000, Kennesaw, GA, USA) Discrete and Continuous Dynamical Systems, 2001, Added Volume, pp.96-101.
66. D. Cheban. Uniform Exponential Stability of Linear Periodic Systems in a Banach Spaces. Electronic Journal of Differential Equations. vol. 2001 (2001), .03, pp.1-12.
65. D. Cheban. Schmalfuss B. and P. Kloeden. Pullback Attractors in Dissipative Nonautonomous Differential Equations under Discretization.Journal of Dynamics and Differential Equations, vol.13, No.1, 2001, pp. 185-213.
64. D. Cheban. Global Pullback Atttactors of C-Analytic Nonautonomous Dynamical Systems. Stochastics and Dynamics. 2001,v.1, No.4,pp.511-535.
63. D. Cheban. Global Pullback Atttactors of C-Analytic Cocycles.Bulletin of Academy of sciences of Republic of Moldova. Mathematics, 2001. .2(36),2001, pp.65-74.
62. D. Cheban. Kloeden pp. E. and Schmalfuss B., Pullbac Attractors under Discretization. Proceeding EQUADIFF99. Berlin 1999, vol.2 (Edited by B. Fiedler, K. Groger and J. Sprekels). World Scientific 2000, pp.1024-1029.
61. D. Cheban. Uniform Exponential Stability of Linear Almost Periodic Systems in a Banach spaces. Electronic Journal of Differential Equations. vol. 2000 (2000), No.29, pp.1-18.
60. D. Cheban. An Analogy of Cameron-Johnson Theorem for the Linear C-analytic Equations in the Hilbert Space. Mathematical Notes, v.68, No.6, 2000, pp.935-938.
59. D. Cheban and B. Schmalfuss. Global Attractors of Nonautonomous Disperse Dynamical Systems and Differential Inclusions. Bulletin of Academy of Sciences of Republic of Moldova. Mathematics, 1999. No1(29), pp.3 - 22.
58. D. Cheban. Global Attractors of Non-autonomous Dynamical Systems and Almost Periodic Limit Regimes of Some Classes of Evolution Equations. Anale Fac. de Mat. si Inform., v. 1, 1999, pp. 1-26.
57. D. Cheban. Relations Between the Different Type of Stability of the Linear Almost Periodical Systems in the Banach Space. Electronic Journal of Differential Equations. vol. 1999 (1999), No.46, pp.1-9.
56. D. Cheban. Global Attractors of Infinite-dimensional Non-autonomous Dynamical Systems, II. Bulletin of Academy of sciences of Republic of Moldova. Mathematics, 1998, N2 (27), pp.25-38.
55. D. Cheban. The Asymptotics of Solutions of Infinite Dimensional Homogeneous Dynamical Systems. Mathematical Notes, 1998. v. 63, N1 , pp.115-126.
54. D. Cheban. Bounded Solutions of the Linear Almost Periodic Systems of Differential Equations. Bulletin of Academy of Sciences of Russia, Mathematics Series. 1998, v. 62, N3, pp.155-174.
53. D. Cheban. Global Attractors of Infinite-dimensional Nonautonomous Dynamical Systems, I. Bulletin of Academy of sciences of Republic of Moldova. Mathematics 1997, N3 (25), pp. 42-55
52. D. Cheban. On the Structure of Compact Asymptotically Stable Sets of C-analytic Almost Periodic Systems. Abstract of speech at Scientific Conference of Moldavian State University, Kishinev, 1995.
51. D. Cheban. Converse of Lyapunov's Theorem on Asymptotic Stability by the First Approximation for C-analytic Non-autonomous Systems. Mathematical Notes, 1995. v. 57, N1, pp. 139-142.
50. D. Cheban. Global Attractors of Infinite-dimensional Systems, II.Bulletin of Academy of sciences of Republic of Moldova. Mathematics. 1995, N1 (17), pp. 28-37.
49. D. Cheban and D. Fakeeh. Global Attractors of Infinite-dimensional Systems, III. Bulletin of Academy of sciences of Republic of Moldova. Mathematics. 1995, N2-3 (18-19), pp. 3-13.
48. D. Cheban. On the Structure of Compact Asymptotically Stable Sets of the C-analytic Almost Periodic Systems. Differential Equations, 1995, v. 31, N12, pp. 2025-2028.
47. D. Cheban and D. Fakeeh. Global Attractors of the Dynamical Systems Without Uniqueness. Kishinev,"Sigma", 1994, ppp.1-167. (in Russian).
46. D. Cheban. Global Attractors of Infinite-dimensional Systems, I. Bulletin of Academy of sciences of Republic of Moldova. Mathematics, 1994, N2 (15), pp. 12-21.
45. D. Cheban and D. Fakeeh. Connectivity of the Levinson Centre of Compactly Dissipative Dynamical System without Uniqueness. Bulletin of Academy of siences of Republic of Moldova. Mathematics, 1993, N1 (11), pp. 15-22.
44. D. Cheban. Some Problems of the Theory of Dissipative Dynamical Systems, II. Functional methods in the theory of differential equations (Mathematical researches, issue 124). Kishinev, "Stiinta", 1992, pp. 106-122.
43. D. Cheban. Locally Dissipative Dynamical Systems and Some of Their Applications. Bulletin of Academy of Sciences of Republic of Moldova. Mathematics, 1992, N1 (8), pp.7-14.
42. D. Cheban. Dissipative Functional Differential Equations. Bulletin of Academy of sciences of Republic of Moldova. Mathematics, 1991, N2 (6), pp. 3-12.
41. D. Cheban. On the Structure of the Levinson Centre of Dissipative Dynamical Systems with the Hyperbolicity Condition on the Closure of the Set of Recurrent Motions. Differential Equations, 1990. v. 26, N5, pp. 913-914.
40. D. Cheban. On the Structure of the Levinson Centre of a Dissipative Dynamical System with the Hyperbolicity Condition on the Set of Recurrent Motions. Bulletin of Academy of Sciences of Republic of Moldova. Mathematics. 1990, N2 (3), pp. 34-43.
39. D. Cheban. Non-autonomous Dissipative Dynamical Systems with a Hyperbolic Subset of Centre (One-dimensional Case). Mathematical Notes, 1989, v. 45, 6, pp. 93-98.
38. D. Cheban. Some Problems of the Theory of Dissipative Dynamical Systems, I. Differential equations and mathematical physics. Kishinev, "Stiinta", 1989, pp. 147-163.
37. D. Cheban. On One of J.Hale's Problems. Mathematical Notes,1989, v. 46, N1, pp. 120-121.
36. D. Cheban. Nonautonomous Dynamical Systems with a Convergence. Differential Equations, 1989. v. 25, N9, pp. 1633-1635.
35. D. Cheban. Impulse and Difference Dissipative Systems with Periodic Coefficients. Researches on Differential Equations and mathematical analysis. Kishinev, "Stiinta", 1988, pp. 127-142.
34. D. Cheban. Principle of Averaging on the Semi-axis for the Dissipative Systems. Dynamical systems and equations of mathematical physics. Kishinev, "Stiinta", 1988, pp. 149-161.
33. D. Cheban. On the Structure of the Levinson Centre of Dissipative Dynamical Systems. Differential Equations, 1988. v. 24, N6, pp. 1086.
32. D. Cheban. Nonautonomous Dissipative Dynamical Systems. Method of Lyapunov Functions. Problems of the qualitative theory of differential equations. Novosibirsk, 1988, pp. 56-64.
31. D. Cheban. On the Structure of the Levinson Centre of Dissipative Dynamical Systems. Differential Equations, 1988. v. 24, N9, pp. 1564-1576.
30. D. Cheban. Nonautonomous Dissipative Dynamical systems. Method of Lyapunov functions. Differential Equations, 1987. v. 23, N3, pp. 464-474.
29. D. Cheban. Boundedness, Dissipativity and Almost Periodicity of the Solutions of Linear and Weakly Nonlinear Systems of Differential Equations. Dynamical systems and boundary value problems. Kishinev, "Stiinta", 1987, pp. 143-159.
28. D. Cheban. Nonautonomous Dissipative Dynamical Systems. Soviet Math. Dokl, v. 33, N1. 1986, pp. 207-210.
27. D. Cheban. One Test of the Convergence of Nonlinear Systems in Hilbert Spaces. Differential equations and their invariants. Kishinev, "Stiinta", 1986, pp. 136-143.
26. D. Cheban. Test of the Convergence of Nonlinear systems by the First Approximation. Differential equations and their invariants. Kishinev, "Stiinta", 1986, pp. 144-150.
25. D. Cheban. Nonautonomous Dynamical Systems. Lyapunov Functions method. Abstract of speech at the 6th All-Union conference of Qualitative Theory of Differential Equations. Irkutsk, 1986, pp. 197-198.
24. D. Cheban. C-analytic Dissipative Dynamical Systems. Differential Equations, 1986. v. 22, N11, pp. 1915-1922.
23. D. Cheban. On the Nonautonomous Dissipative Dynamical Systems. Uspekhi Matematicheskikh Nauk, 1986, v. 41, N4 (250), pp. 169.
22. D. Cheban. Quasiperiodic Solutions of the Dissipative Systems with a Quasiperiodic Coefficients. Differential Equations, v. 22, N2. 1986, pp. 267-278.
21. D. Cheban. On the Second Lyapunov Method in the Theory of Stability of Dynamical Systems. Differential Equations and Dynamical Systems. Kishinev, "Stiinta", 1985, pp. 139-147.
20. D. Cheban. Nonautonomous Dissipative Dynamical Systems.Differential Equations, 1985, v. 21, N5, pp. 913-914.
19. D. Cheban. Dynamical Systems of Translations in the Spaces of Functions and Distributions. Research on the Functional Analysis and Differential Equations. Kishinev, "Stiinta", 1984, pp. 130-142.
18. D. Cheban. Periodic and Quasiperiodic Solutions of Linear Differential Equations. Differential Equations, 1984, v. 20, N8, pp. 1455-1456.
17. D. Cheban. On the Stability of Levinson Centre of Nonautonomous Dissipative Dynamical Systems. Differential Equations, 1984,v. 20, N11, pp. 2016-2018.
16. D. Cheban. Compatible Solutions of Differential Equation x’’=f(t,x) in the Hilbert space. Research on the Differential Equations.Kishinev, "Stiinta", 1983, pp. 101-111.
15. D. Cheban. Compatible Solutions of Linear Partial Differential Equations. Researches on the Differential Equations. Kishinev,"Stiinta", 1983, pp. 101-111.
14. V. Amelkin and D. Cheban. Bounded Solutions and Periodic Oscillations of Differential Systems. Differential Equations and Theory of Operators. Kishinev, "Stiinta", 1982, pp. 3-9.
13. D. Cheban and I. Cheban. Anti Almost Periodic Solutions of Differential Equations. Research on the Functional Analysis and Differential Equations. Kishinev, "Stiinta", 1981, pp. 100-108.
12. D. Cheban and A. Shipkov. Bounded solutions of differential equations with complex time. Research on the Functional Analysis and Differential Equations. Kishinev, "Stiinta", 1981, pp. 116-123.
11. D. Cheban. Some Theorems of the Injection of Dynamical Systems. Algebraic Invariants of Dynamical Systems. Kishinev, "Stiinta". 1980, pp. 118-122.
10. D. Cheban. A Theory of the Linear Differential Equations (selected chapters). Kishinev, "Shtiintsa", 1980, pp.1-110.
9. D. Cheban. Some Properties of Linear Systems of Differential Equations with Asymptotically Almost Periodic Coefficients.Differential Equations 1978, v. 14, N5, pp. 940-942.
8. D. Cheban and V. Chernii. On the Question of Exponential Dichotomy on Semi-axis of Solutions of Differential Equations.Differential Equations, 1978, v. 14, No.11, pp. 2012-2018.
7. D. Cheban. On the Boundedness and Asymptotic Almost Periodicity of Solutions of Differential Equations Solutions. Kishinev, "Stiinta", Mathematical Sciences, No.1, 1977, pp. 72-76.
6. D. Cheban. On the Comparability of the Points of Dynamical Systems with Regard to the Character of Recurrence Property in the Limit. Kishinev, "Stiinta", Mathematical Sciences, No.1, 1977, pp. 66-71.
5. B. Scherbakov and D. Cheban. Poisson Asymptotic Stability of Motions of Dynamical Systems and their Comparability with Regard to the Recurrence Property in the Limit. Differential Equations, v. 13, N5. 1977, pp. 898-906.
4. D. Cheban. Poisson Asymptotic Stability of Solutions of Operational Equations. Differential Equations, v. 13, N8, 1977, pp. 978-983.
3. D. Cheban. On the Problem of Structural Stability of Linear Systems of Differential Equations with Almost Periodic Coefficients. Differential Equations, 1977, v. 13, N11, pp. 2099-2101.
2. D. Cheban. Uniformly isochron Solutions of Linear System of Differential Equations. Kishinev, "Stiinta". 1974, v. 32, N2, pp. 204-213.
1. D. Cheban. Poisson Asymptotically Stable Solutions of Non-linear Differential Equations. Kishinev, "Stiinta". Mathematical researches, 1974, v. 37, N3, pp. 231-237.
Works to appear/submitted:
1. Cheban D. N., The Structure of Global Attractors for Non-Autonomous Perturbations of Gradient-Like Dynamical Systems. (Submitted).
2. David Cheban and Zhenxin Liu, Recurrent motions for stochastic differential equations. (Submitted).
3. David Cheban and Zhenxin Liu, Bohr/Levitan Almost Periodic, Almost Automorphic, Recurrent and Poisson Stable Solutions of Monotone Differential Equations. (to appear).
Monographs:
1. Cheban D. N., Theory of linear differential equations in Banach spaces,"Stiintsa", Chisinau, MOLDOVA, 1980, 111 pp. (in Russian)
2. Cheban D. N., Global attractors of dynamical systems without uniqueness (with D. Fakeeh), "Sigma", Chisinau, MOLDOVA, 1994, 167 pp. (in Russian)
3. Cheban D. N., Global Attractors of Nonautonomous Dynamical Systems. Press of State University of Moldova, Chisinau, MOLDOVA, 2002, 386 pp. (in Russian) View text
4. Cheban D. N., Asymptotically Almost Periodic Solutions of Differential Equations. Press of State University of Moldova, Chisinau, MOLDOVA, 2002, 226 pp. (in Russian) View text
5. Cheban D., Global Attractors of Nonautonomous Dissipative Dynamical Systems. Interdisciplinary Mathematical Sciences 1. River Edge, NJ: World Scientific, 2004, xxiii+502 pp.
6. Cheban D. N., Asymptotically Almost Periodic Solutions of Differential Equations. Hindawi Publishing Corporation, New York, 2009, ix+186 pp.
7. Cheban D. N., Global Attractors of Set-Valued Dynamical and Control Systems. Nova Science Publishers Inc, New York, 2010, xvii+269 pp.
8. Cheban D. N., Lyapunov Stability of Non-Autonomous Dynamical Systems. Nova Science Publishers Inc, 2013, xii+275 pp.
9. Cheban D.N. Global Attractors of Nonautonomous Dynamical and Control Systems. Interdisciplinary Mathematical Sciences, vol.18, River Edge, NJ: World Scientific, 2015, xxv+589 pp.
Theses:
1.Cheban D. N., Asymptoticaly Stable in the Sense of Poisson Motions of Dynamical Systems and Solutions of Differential Equations. Master's thesis. State University of Kishinev, 1974, 27 pages (in Russian). View text
2.Cheban D. N., Asymptoticaly Stable in the Sense of Poisson Solutions of Differential Equations. Abstract of the Candidat of Physical and Mathematical Sciences Dissertation. Minsk, State University of Belorussia, 1977, 8 pages (in Russian).
3. Cheban D. N., Asymptoticaly Stable in the Sense of Poisson Solutions of Differential Equations. Candidat of Physical and Mathematical Sciences Dissertation.Kishinev, State University of Kishinev, 1977, 110 pages (in Russian). View text
[English translation: D. Cheban, Asymptotically Almost Periodic Solutions of Differential Equations. Hindawi Publishing Co., New York, 2009, ix+186 pp. (Chapter I, Chapter II (Sections 2.1-2.4), Chapter III (Sections 3.1-3.4, 3.6)]
4. Cheban D. N., Nonautonomous Dissipative Dynamical Systems. Abstract of Doctor of Physical and Mathematical Sciences Dissertation. Minsk, Academy of Sciences of Republic of Belorussia, 1991, 22 pages (in Russian).
5. Cheban D. N., Nonautonomous Dissipative Dynamical Systems. Doctor of Physical and Mathematical Sciences Dissertation. Kishinev, State University of Kishinev, 1991, 242 pages (in Russian). View text
[English translation: D. Cheban, Global Attractors of nonautonomous Dissipative Dynamical Systems. River Edge, NJ: World Scientific, 2004, xxiii+502 pp. (Chapter I (Sections 1.1-1.9), Chapter II (Sections 2.1-2.5, 2.11), Chapter III (Sections 3.1, 3.2, 3.5, 3.6, 3.8), Chapter IV, Chapter V (Sections 5.1-5.5), Chapter 6 (Sections 6.1-6.5)]
Manuals for students:
1. Integral equations. Teaching-methodical manual on the section "Differential and integral equations" of the course of high mathematics for the students of the Faculty of Physics. Press of State University of Moldova, Chisinau, MOLDOVA, 1990, 50 pp. (in Russian)
2. High Mathematics (brief handbook). "Evrika", Chisnau, MOLDOVA, 1997, 75 pp. (in Russian and Romanian)
3. The Ordinary Differential Equations. Problem Solver. Press of State University of Molodva, Chisinau, MOLDOVA, 2001, 406 pp. (in Russian)
4. Problemele de ecuatii diferentiale (with A. Suba). Press of State University of Moldova, Chisinau, MOLDOVA, 2001, 272 pp. (in Romanian)
2017
49. Cheban D. N., Linear Stochastic Differential Equations and Nonautonomous Dynamical Systems. Proceedings CMSM4, The Fourth Conference of Mathematical Society of the Republic of Moldova: dedicated to the centenary of Vladimir Andrunachievici (1917-1997). June 28 – July 2, Chisinau 2017, pp.255-258.
2016
48. Cheban D. N., Levitan/Bohr Almost Periodic and Almost Automorphic Solutions of the Scalar Differential Equations. Mathematics & Information Technologies: Research and Education (MITRE-2016), Chisinau, Republic of Moldova, June 23-26, 2016, pp.18-19.
47. Cheban D. N., Mammana C. and Michetti E., The Structure of Global Attractors for Non-Autonomous Perturbations of Discrete Gradient-Like Dynamical Systems. Patterns of Dynamics: Conference in Honor of Bernold Fiedler, Berlin July 25--29, 2016. Book of Abstracts and Program, p.28.
2015
46. Cheban D. N., The Structure of Global Attractors for Non-Autonomous Gradient-Like Dynamical Systems. International conferences "Mathematics & Information Technologies: Research and Education (MITRE-2015). Abstracts, Chisinau, July 2-4, 2015, p.21-22.
45. Cheban D. N. and Kalitine B. S., On the stability of gradient-like systems. International mathematical conference "Sixth Bogdanov reads on ordinary differential equations", December 7-10, 2015. Abstracts of conference, Vol.1, Minsk, 2015, pp.90-92.
2014
44. Cheban D. N., Birkhoff's center of compact dissipative dynamical ystem. The Third Conference of Mathematical Society of the republic of Moldova, 19-23 August, 2014, Chisinau, Moldova. Proceedings IMCS-50. Chisinau, Inst. Math Comp. Science, Academy of Sciences of Moldova, 2014. p.239-242. View text
2013
43. Cheban D. N., Belitskii--Lyubich Conjecture for C-Analytic Dynamical Systems. Abstracts of the international conferences. Mathematics & Information Technologies: Research and Education (MITRE-2013). August 18-22, 2013, Chisinau (Republic of Moldova), pp.28-29.
2012
42. Cheban D. N., Markus-Sell's Theorem for Nonautonomous Dynamical Systems. Abstracts of the 20-th Conference on Applied and Industrial Mathematics Dedicated to Academician Mitrofan M. Ciobanu. Chisinau, August 22-25, 2012, p. 63.
41. Cheban D. N. and Mammana C., Markus-Sell's Theorem for Infinite Dimensional Asymptotically Almost Periodic Systems. Abstracts of the 9-th AIMS International Conference on "Dynamical Systems, Differential Equations and Applications". July 1-5, 2012 Hyatt Regency Grand Cypress (Orlando, Florida, USA), pp. 246. View text
40. Cheban D. N. and Mammana C., Chaotic Attractors of Control Systems. Book of abstracts Chaos 2012: 5-th Chaotic Modeling and Simulation International Conference. Editor Christos H. Skiadis. 12-15 June 2012 (Athene, Greece), pp. 29. View text
2011
39. Cheban D. N., G. Sell's conjecture for non-autonomous dynamical systems. Abstracts of international conferences. Mathematics & Information Technologies: Research and Education (MITRE-2011). Dedicated to the 65th aniversary of the Moldova State University. August 22-25, 2011, Chisinau (Republic of Moldova). View text
38. Cheban D. N., Sell's conjecture for non-autonomous dynamical systems. One-day Workshop on non-autonomous dynamical systems, November 23th, 2011 (Seville, Spain). View text
2010
37. Cheban D. N., Favard’s theory.One-day Workshop on deterministic and stochastic dynamical systems, March 16th, 2010 (Seville, Spain). View text
2006
36. D. Cheban. Markus-Yamabe Conjecture. The 14-th Conference of Applied and Industrial Mathematics (August 17-19, 2006, MOLDOVA).
35. D. Cheban and C. Mammana. Global Attractors and Almost Periodic Solutions of V-Monotone Non-Autonomous Dynamical Systems. International Congress of Mathematicians (August 22-30, 2006, SPAIN, Madrid).
34. D. Cheban, C. Mammana and E. Michetti. Global Attractors of Non-Autonomous Difference Equations. 6th AIMS International Conference on Dynamical Systems and Differential Equations, June 25-28, 2006, Poitiers, FRANCE.
2005
33. D. Cheban and C. Mammana. Almost Periodic Solutions of Non-Autonomous Beverton-Holt Difference Equations. 2005 WSEAS International Conference on Dynamical Systems and Control, Venice, Italy, November 2-4, 2005.
32. D. Cheban and C. Mammana. Continuous Dependence of Attractors on Parameters of Non-Autonomous Dynamical Systems and Infinite Iterated Functions Systems. International Conference on Non-autonomous and Stochastic Dynamical Systems, Sep 27 - Oct 1, 2005 Sevilla (SPAIN).
31. D. Cheban and C. Mammana. Invariant Manifolds and Almost Automorphic Solutions of Second-Order Monotone Equations. EQUADIFF 11: International conference on differential equations, Czecho-Slovak series. Comenius University, Bratislava, SLOVAKIA, July 25 - 29, 2005.
2004
30. D. Cheban and C. Mammana. Global Compact Chaotic Attractors of Discrete Control Systems. International Conference “Differential Equations and Related Topics†dedicated to I.G. Petrovskii (May 16-22, Moscow, RUSSIA).
29. D. Cheban and C. Mammana. Absolute Asymptotic Stability of Discrete Linear Inclusions in Banach Spaces. First Joint Canada-France meeting of the Mathematical Sciences (July 12-15, Toulouse, FRANCE).
28. D. Cheban and C. Mammana. Relation Between Different Types of Stability of Linear Non-Autonomous Dynamical Systems (plenary talk). International Conference: 2004 – Dynamical Systems and Applications (July 5-10, Antalya – Pamukkale (Hierapolis), TURKEY).
27. D. Cheban. Almost Periodic Solutions of Monotone Almost Periodic Equations. International Conference on Differential Equations (July 22-26, Hasselt, BELGIUM). Equadiff 2003, p.25.
26. D. Cheban and C. Mammana. Invariant manifolds, Global Attractors and Almost Periodic Solutions of Non-autonomous Difference Equations. International Conference on Differential Equations (July 22-26, Hasselt, BELGIUM). Equadiff 2003, p.25.
25. D. Cheban, Nonautonomous Holomorphic Dynamics (invited speaker). International Workshop (September 29 -- October 3, Friedrichsdorf, GERMANY).
24. D. Cheban, J. Duan and A. Gherco. Heteroclinic Solutions of Multi-dimensional Differential Equations. Workshop on Qualitative Research of the Differential Equations dedicated to the 75th birthday of Academician Constantin Sibirsky (February 14 -- 15, Chisinau, MOLDOVA)
2001
23. D. Cheban. An Analog of Cameron-Johnson Theorem for the Linear C-analytic Equations in Hilbert Space. Proceedings of the International Conference on "Differential Equations and Related Topics" dedicated to the Centenary Anniversary of Ivan G. Petrovskii (May 22-27, Moscow, RUSSIA), pp.86-87.
22. D. Cheban. Global Pullback Atttactors of C-Analytic Nonautonomous Dynamical Systems. First conference of the Mathematical Society of Republic of Moldova (August 16 - 18, Chisinau, MOLDOVA), p.25.
2000
21. D. Cheban. Global Attractors of Quasihomogeneous Nonautonomous Dynamical Systems. Proceedings of the International Conference on Dynamical Systems and Differential Equations (May 18-21, Kennesaw, GA, USA). Discrete and Continuous Dynamical Systems, 2001, Added Volume, pp.96-101.
1999
20. D. Cheban, P. Kloeden and B. Schmalfuss. Pullbac Attractors Under Discretization. Proceedings of EQUADIFF99 (1999, Berlin, GERMANY), vol.2, (edited by B. Fiedler, K. Groger and J. Sprekels). World Scientific 2000, pp.1024-1029.
1995
19. D. Cheban. On the Structure of the Compact Asymptotically Stable Sets of the C-analytic Almost Periodic Systems. Abstract of speech at Scientific Conference of Moldavian State University (Chisinau, MOLDOVA).
1992
18. D. Cheban and D. Fakeeh. Disperse Dissipative Dynamical Systems. Abstracts 8th Intern. Conf. Equa. Diff. - 92.(1992, Samarkand, UZBEKISTAN), p. 115.
17. D. Cheban. Globally Uniform Asymptotic Stability of the Solutions of Nonautonomous Systems. Abstract of speech at the Republican Scientifically-methodical Conference (Odessa, Ukraine), V. 1, p. 23.
1991
16. D. Cheban and D. Fakeeh. Discontinuous Dissipative Dynamical Systems. Collection "Discontinuous Dynamical Systems", abstract of speech at the Scientific School Seminar (17-20 September, Uzhgorod, Ukraine), p.69.
1990
15. D. Cheban. Homoclinical Trajectories of Nonautonomous Systems. Abstract of the speech at the 2nd All-Union Conference "Nonlinear Oscillations of Mechanical Systems", (Gorky, RUSSIA), p.138.
1989
14. D. Cheban. On One J.Hale's Problem. Abstract of speech at the 7th All-Union Conference of the Qualitative Theory of Differential Equations. (Riga, USSR), p.227.
1987
13. D. Cheban and B. Shcherbakov. Barbashin-Krasovsky Theorem for Nonautonomous Dynamical Systems. Abstract of the speech at the 5th All-Union Chetaev Conference "Analytic Mechanics, Stability, and the Motion Control" (Kazan, USSR), p.106.
1986
11. D. Cheban. Nonautonomous Dynamical Systems. Lyapunov Functions' Method. Abstract of speech at the 6th All-Union Conference of the Qualitative Theory of Differential Equations (Irkutsk, USSR), p.197-198.
10. D. Cheban. On Nonautonomous Dissipative Dynamical Systems. Uspekhi matematicheskikh nauk, v. 41, N4 (250), p.169. Abstract of the talk at the International conference “Differential Equations and Applications” (Moscow State University, Moscow, USSR)
1985
9. D. Cheban. C-analytic Dissipative Dynamical Systems. Abstracts of the III International Conference of Differential Equations and Applications (Roosse, BULGARIA), p.141.
1983
8. D. Cheban. Dissipative Dynamical Systems. Abstract of the speech at the 2nd Scientific Conference on Difference Equations (University of Sciences and Technology (USTHB), Alger, ALGERIE), p.40-41.
1982
7. D. Cheban and V. Amelkin. Bounded Solutions and Periodic Oscillations of Differential Systems. Differential Equations and Theory of Operators (Chisinau, USSR), "Shtiintsa", p.3-9.
1979
6. D. Cheban and B. Shcherbakov. Asymptotically Almost Periodic Solutions of Linear and Quasi-linear Differential Equations. Speech Theses at the All-Union Conference of Asymptotic Methods in the Theory of Singularly-perturbed Equations (Alma-Ata, USSR), part 1, p.164-165.
5. D. Cheban. Linear Differential Equations Satisfy the Condition of Favard. Abstract of the speech at the 5th All-Union Conference of the Qualitative Theory of Differential Equations (Chisinau, USSR), p.181-182.
4. D. Cheban and I. Cheban. Anti Almost Periodic Solutions of Differential Equations. Abstract of the speech at the 5th All-Union Conference of the Qualitative Theory of Differential Equations (Chisinau, USSR), p.181-182.
1978
3. D. Cheban and V. Amelkin. Periodic Solutions of Differentially-operational Equations. Abstract of the speech at the 4th All-Union School of the Theory of Operators in Functional Spaces (Minsk, USSR), p.9-10.
1976
2. D. Cheban and B. Shcherbakov. Poisson Asymptotically Stable Motions of Dynamical Systems. Abstract of the speech at the 4th All-Union Conference on the Qualitative Theory of Differential Equations (Ryazan, USSR), p. 173.
1973
1. D. Cheban. On the Asymptotic Behavior of Solutions of Differential Equations. Abstract of the speech at the 3rd All-Union Conference on the Qualitative Theory of Differential Equations (Samarkand, USSR), p.216.
2016
34. School of Mathematical Sciences, Dalian University of Technology (March – May 2016, China, Dalian—Prof. Zhenxin Liu).
33. Center for Mathematical Sciences, Huanzhong University of cience and Technology in Wuhan (December 2016, China, Wuhan—Prof. Jinqiao Duan).
2014
32. University of Sao Paulo, Institute of Mathematics and Computer Sciences , Department of Mathematics (Sao Carlos, Brazil – Prof. Carvalho A.)
31. University of Sevilla, Departement of Differental Equations and Numerical Analysis (Sevilla, Spain – Prof. Caraballo T.)
2013
30. University of Granada, Department of Applied Mathematics (Granada, Spain – Profs Ortega R. and Torres P.)
29. University of Minsk, Department of Differential Equations and Systems Analysis (Minsk, Belorusia – Prof. Gromak V. I.)
2012
28. University of Ancona, Depatment of Mecanics (Ancona, ITALY -- Prof. E. Tomasini)
2011
27. University of Sevilla, Department of Differential Equations and Numerical Analysis . (Sevilla, SPAIN -- Prof. T. Caraballo)
2010
26. University of Sevilla, Department of Differential Equations and Numerical Analysis . (Sevilla, SPAIN -- Prof. T. Caraballo)
2008
25. University of Limoges, Department of Mathematics. (Limoges, FRANCE -- Prof. D. Boularas)
24. University of Poitiers, Department of Mathematics. (Poitiers, FRANCE -- Prof. A. Miranville)
2007
23. University of Sevilla, Department of Differential Equations and Numerical Analysis . (Sevilla, SPAIN -- Prof. T. Caraballo)
2005
22. National Academy of Sciences of Ukraine, Institute of Mathematics (Kiev, UKRAINE - Profs A. Samoilenko and A. Sharkovsky).
2003
21. University of Ancona Depatment of Mecanics (Ancona, ITALY -- Prof. E.Tomasini).
2002
20. Illinois Institute of Technology (Chicago, USA -- Prof. J. Duan).
19. University of Missouri(Columbia, USA -- Profs C. Chiconi and Yu.Latushkin).
18. University of Florence (Florence, ITALY -- Prof. R. Johnson).
2000
17. University of Bremen (Bremen, GERMANY -- Prof. L. Arnold).
1999
16. University of Merseburg (Merseburg, GERMANY -- Prof. B.Schmalfuss).
1998
15. Institute of Mathematics of Oberwolfach (Oberwolfach, GERMANY -- Profs P. Kloeden and B. Schmalfuss).
1997
14. University of Halle (Halle, Germany -- Prof. B. Schmalfuss)
1988
13. University of St. Peterburg (St. Peterburg, USSR -- Prof. V. Pliss).
12. Moscow State University (Moscow, USSR -- Profs V. Kondratiev, V.Millionshchikov and N. Rozov).
1987
11. National Academy of Science of Ukraine (Kiev, USSR - Prof. A.Sharkovsky).
1986
10. University of St. Peterburg (St. Peterburg, USSR -- Prof. V. Pliss).
9. State University of Belarussia (Minsk, USSR -- Prof. Yu. S. Bogdanov).
1985
8. Moscow State University (Moscow, USSR -- Profs V. A. Kondratiev, V. M. Millionshchikov and N. Rozov).
1984
7. Moscow State University (Moscow, USSR -- Prof. B. Levitan).
6. Moscow State University (Moscow, USSR -- Prof. Yu. Ilyashenko).
1983, 1982, 1981 (once a year)
5. University of Science and Technology (Alger, ALGERIE -- Drs D.Cheban, B. Kalitin and E. Larionov).
1977
4. State University of Belarussia (Minsk, USSR -- Prof. Yu. Bogdanov).
1976
3. National Academy of Science of Ukraine (Kiev, USSR - Prof. A.Sharkovsky).
2. Moscow State University (Moscow, USSR -- Prof. B. Demidovich).
1973 (and till now, annually)
1. State University of Moldova (Chisinau, Moldova (USSR) - Academician K. Sibirsky and Prof. B. Shcherbakov).
Referee for:
Abstract and Applied Analysis (Int., USA (Hidawi))
Acta Mathematicae Applicatae Sinica (China)
Advances in Difference Equations (Int., USA (Hidawi))
Annali di Matematica Pura ed Applicata (Italy, Florence)
Applicable Analysis (Int. England)
Applied Mathematics and Computation (Int. USA)
Applied Mathematics Letters (Int. USA)
Boundary Value Problems (Int. USA)
Buletinul Academiei de Stiinte a Republicii Moldova. Matematica (Republic of Moldova, Chisinau)
Central European Journal of Mathematics (Int. Germany)
Chaos, Solutions & Fractals (Elsevier)
Discrete Dynamics in Nature and Society
Discrete and Continuous Dynamical Systems: Series A, B and S (Int. USA)
Dynamical Systems: An international Journal. (Int., UK)
Electronical Journal of Differential Equations (Int. USA)
Electronic Journal of Qualitative Theory of Differential Equations (Intern. Journal, Hungary)
Indian Journal of Pure and Applied Mathematics (India, New Delhi)
Integral Equations and Operator Theory
Journal of Differential Equations (Int. USA)
Journal of Difference Equations and Applications (Int.England)
Journal of Integral Equations and Applications (Int. USA)
Journal of Mathematical Analysis and Applications: Series A and B (Int, USA)
Lecture Notes in Mathematics (Int. Germany, Springer)
Mathematical and Computer Modeling (Int. USA)
Mathematische Nachrichten (Int. (WILEY-VCH))
Nonautonomous Dynamical Systems
Nonlinear Analysis: Theory, Methods and Applications (Int. USA, Elsevier)
Nonlinear Analysis: Real World Applications (Int. USA, Elsevier)
Nonlinear Analysis: Hybrid Systems (Int. USA, Elsevier)
Result in Mathematics(Int. Switzerland)
Revista Matematica Complutense (Int. Spain)
SIAM: Journal of Control and Optimization (Int. USA)
SIAM: Journal of Mathematical Analysis
Mathematica Slovaca
Stochastics and Dynamics (Int. USA)
Journal of Zhejiang University Science C (Computers & Electronics)
Reviewer for:
Mathematical Reviews
Zentrablatt
Guesteditor of:
Proceedings of International conference "2004 - Dynamical Systems and Applications" (July 05-10 2004, Antalya, Turkey)
Associate Editor for:
List of works with citations of my publications: 2019 526. Bonotto E. M., Demuner D. P., Jimenez H. Z., Convergence for non-autonomous semidynamical systems with impulses. Journal of Differential Equations, 266 (2019), pp.227-256. 525. Xuewei Ju, Desheng Li and Jinqiao Duan, Forward attraction of pullback attractors and synchronizing behavior of gradient-like systems with non-autonomous perturbations. Discrete and Continuous Dynamical Systems—Series B, Vol.24, No.3, 2019, pp.1175--1197. 524. Olexiy V. Kapustyan, Pavlo O. Kasyanov, Jose Valero and Mikhail Z. Zgurovsky, Attractors of multivalued semiflows generated by solutions of control problems. Discrete and Continuous Dynamical Systems—Series B, Vol.24, No.3, 2019, pp.1229--1242. 523. Marko Kostic, Weyl-almost periodic solutions and asymptotically Weyl-almost periodic solutions of abstract Volterra integro-differential equations. Banach J. Math. Anal., Volume 13, Number 1 (2019), pp.64-90. 522. Xiaoya Song Chunyou Sun and Lu Yang, Pullback attractors for 2D Navier–Stokes equations on time-varying domains. Nonlinear Analysis: Real World Applications, 45 (2019), pp.437–460. 2018 521. Hassan Mazim Alkhayuon, Rate-induced transitions for parameter shift systems. University of Exeter, GB, Mathemetics, July 2018 (PhD theses). 520. C Aouiti, F Miaadi, Pullback attractor for neutral Hopfield neural networks with time delay in the leakage term and mixed time delays. Neural Computing and Applications,} 2018, pp.1-10. 519. Bonotto E. H., Monotone impulsive dynamical systems. Collectanea Mathematica, 2018, Vol. 69, Issue 1, pp.17–24. 518. E. M. Bonotto, D. P. Demuner and G. M. Souto, k Weak topological conjugacy via character of recurrence on impulsive dynamical systems. Bull Braz Math Soc, New Series (2018). https://doi.org/10.1007/s00574-018-0104-x 517. E.M. Bonotto, J. Costa Ferreira, and M. Federson, Uniform asymptotic stability of a discontinuous predator-prey model under control via non-autonomous systems theory. Differential Integral Equations, Vol. 31, No. 7/8 (2018), pp.519-546. 516. E. M. Bonotto, J. G. Mesquita and R. P. Silva, Global Mild Solutions for a Nonautonomous 2D Navier–Stokes Equations with Impulses at Variable Times. Journal of Mathematical Fluid Mechanics, 2018, Vol. 20, No. 2, pp. 801–818. 515. Junfei Cao and Zaitang Huang, Asymptotic Almost Periodicity of Stochastic Evolution Equations. Bull. Malays. Math. Sci. Soc., 2018. https://doi.org/10.1007/s40840-018-0604-2 514. JUNFEI CAO, ZAITANG HUANG, GASTON M. N'GUEREKATA, EXISTENCE OF ASYMPTOTICALLY ALMOST AUTOMORPHIC MILD SOLUTIONS FOR NONAUTONOMOUS SEMILINEAR EVOLUTION EQUATIONS. Electronic Journal of Differential Equations, Vol. 2018 (2018), No. 37, pp. 1--16. 513. JUNFEI CAO, ZAITANG HUANG, GASTON M. N'GUEREKATA, Existence of Asymptotically Almost Automorphic Mild Solutions of Semilinear Fractional Differential Equations. International Journal of Differential Equations, Volume 2018, Article ID 8243180, 23 pages https://doi.org/10.1155/2018/8243180 512. Pending Cui Hongyong, Langa José A., Li Yangrong and Valero José, Attractors for multi-valued non-autonomous dynamical systems: relationship, characterization and robustness. Set-Valued Var. Anal., 26 (2018), no. 3, pp.493-530. 511. Hongyong Cui, Mirelson M. Freitas and Jose A. Langa, SQUEEZING AND FINITE DIMENSIONALITY OF COCYCLE ATTRACTORS FOR 2D STOCHASTIC NAVIER-STOKES EQUATION WITH NON-AUTONOMOUS FORCING. DISCRETE AND CONTINUOUS DYNAMICAL SYSTEMS, SERIES B Vol. 23, No 3, 2018. pp. 1297--1324. 510. Hongyong Cui and Peter E. Kloeden, Invariant forward attractors of non-autonomous random dynamical systems. Journal of Differential Equations, (2018), https://doi.org/10.1016/j.jde.2018.07.028 . 509. L. I. Danilov, Dynamical systems of shifts and measurable selectors of multi-valued maps. SB MATH, 2018, 209:11, pp.69-102. DOI:10.1070/SM8994 508. Mirelson M. Freitas, Piotr Kalita and José A. Langa, Continuity of non-autonomous attractors for hyperbolic perturbation of parabolic equations. J. Differential Equations, 264 (2018) pp.1886–1945. 507. XUEWEI JU and DESHENG LI, GLOBAL SYNCHRONISING BEHAVIOR OF EVOLUTION EQUATIONS WITH EXPONENTIALLY GROWING NONAUTONOMOUS FORCING. Communications on Pure & Applied Analysis, 2018, Vol. 17 No. 5, pp.1921-1944. 506. Francesca Grassetti, Cristiana Mammana and Elisabetta Michetti, Poverty trap, boom and bust periods and growth. A nonlinear model for non-developed and developing countries. Rivista di Matematica per le Scienze Economiche e Sociali, 2018. DOI: 10.1007/s10203-018-0211-6 505. Francesca Grassetti, Cristiana Mammana and Elisabetta Michetti, Poverty trap, boom and bust periods and growth. A nonlinear model for non-developed and developing countries. Decisions in Economics and Finance, 2018. pp.1-18. 504. Francesca Grassetti, Cristiana Mammana and Elisabetta Michetti, On the Effect of Labour Productivity on Growth: Endogenous Fluctuations and Complex Dynamics. Discrete Dynamics in Nature and Society, Volume 2018, Article ID 6831508, 9 pages. 503. Gryszka Karol, On asymptotically periodic-like motions in flows. Ann. Univ. Paedagog. Crac. Stud. Math., 17 (2018), pp.45-57. DOI: 10.2478/aupcsm-2018-0005 502. Piotr Kalita and Piotr Zgliczynski, On non-autonomously forced Burgers equation with periodic and Dirichlet boundary conditions. \newblock{\em Preprint,} 2018. 501. Kostic M., WEYL–ALMOST PERIODIC AND ASYMPTOTICALLY WEYL–ALMOST PERIODIC PROPERTIES OF SOLUTIONS TO LINEAR AND SEMILINEAR ABSTRACT VOLTERRA INTEGRO–DIFFERENTIAL EQUATIONS. Mathematical Notes, 2018. Vol. 25, No. 2, pp.65-84. 500. Marko Kostic, On generalized C(n)-almost periodic solutions of abstract Volterra integro-differential equations. Novi Sad J. Math., Vol. 48 (2018), No. 1, pp.73–91. 499. Dhaou Lassoued, Rahim Shah and Tongxing Li, Almost periodic and asymptotically almost periodic functions: part I. Advances in Difference Equations, (2018) 2018:47 https://doi.org/10.1186/s13662-018-1487-0. 498. Fang Li and Bo You, Random attractor for the stochastic Cahn–Hilliard–Navier–Stokes system with small additive noise. Stochastic Analysis and Applications, 36:3, 2018, pp.546-559. DOI: 10.1080/07362994.2018.1431130 497. Li Xiaojun, Pullback exponential attractors for evolution processes with the difference of 2 solutions lacking smoothing property. Math. Methods Appl. Sci., 41 (2018), no. 10, pp.3790-3819. 496. Xiaojun Li, Xiliang Li and Kening Lu, RANDOM ATTRACTORS FOR STOCHASTIC PARABOLIC EQUATIONS WITH ADDITIVE NOISE IN WEIGHTED SPACES. COMMUNICATIONS ON PURE AND APPLIED ANALYSIS, Volume 17, Number 3, May 2018, pp. 729--749. doi:10.3934/cpaa.2018038 495. Yongkun Li, Yaolu Wang and Jianglian Xiang, Stepanov-Like Asymptotical Almost Periodic Functions and an Application. Journal of Function Spaces, Volume 2018, Article ID 8208323, 9 pages. https://doi.org/10.1155/2018/8208323 494. IACOPO P. LONGO, SYLVIA NOVO, AND RAFAEL OBAYA, WEAK TOPOLOGIES FOR CARATH´EODORY DIFFERENTIAL EQUATIONS. CONTINUOUS DEPENDENCE, EXPONENTIAL DICHOTOMY AND ATTRACTORS. J Dyn Diff Equat, (2018), pp.1-35. https://doi.org/10.1007/s10884-018-9710-y 493. G. M. N’Guérékata and Marko Kostic, Generalized Asymptotically Almost Periodic and Generalized Asymptotically Almost Automorphic Solutions of Abstract Multiterm Fractional Differential Inclusions. Abstract and Applied Analysis, Volume 2018, Article ID 5947393, 17 pages https://doi.org/10.1155/2018/5947393 492. Alberto Padoan, GEOMETRIC METHODS FOR MODELLING AND APPROXIMATION OF NONLINEAR SYSTEMS. PhD thesis, London, Imperial College of Science, Technology and Medicine Department of Electrical and Electronic Engineering Control and Power Research Group, 2018. 491. Xuewei Ju and Desheng Li, GLOBAL SYNCHRONISING BEHAVIOR OF EVOLUTION EQUATIONS WITH EXPONENTIALLY GROWING NONAUTONOMOUS FORCING. COMMUNICATIONS ON PURE AND APPLIED ANALYSIS, Vol.17, No. 5, 2018 pp. 1921-1944. 490. Yanping Ran and Qihong Shi, Pullback attractors for a non-autonomous damped wave equation with infinite delays in weighted space. Math Meth Appl Sci., 2018;1–29. DOI: 10.1002/mma.4918 489. Danxia Wang and Yinzhu Wang, Pullback attractor for N-dimensional thermoelastic coupled structure equations. Boundary Value Problems, 2018:5, pp.1-21. https://doi.org/10.1186/s13661-017-0921-7 R 488. Yejuan Wang and Lin Yang, Global exponential attraction for multi-valued semidynamical systems with application to delay differential equations without uniqueness. Discrete and Continuous Dynamical Systems, series B, 2018. doi: 10.3934/dcdsb.2018257 487. Z. Wu, Linearized block-wise alternating direction method of multipliers for multiple-block convex programming. Journal of Industrial & Management Optimization, 2018, 14(3): 833--855. 486. Shenggang Ying and Mingsheng Ying, Information and Computation Reachability analysis of quantum Markov decision processes. Information and Computation, 2018, in press. https://doi.org/10.1016/j.ic.2018.09.001 485. Xu Zhang, and Guanrong Chen, Chaotic and non-chaotic strange attractors of a class of non-autonomous systems. Chaos, 28, 023102 (2018), pp.1--11. 484. F. Zhou, C. Sun and X. Li, Dynamics for the damped wave equations on time-dependent domains. Discrete and Continuous Dynamical Systems-B, 2018, 23 (4) : 1645-1674. doi: 10.3934/dcdsb.2018068 483. Hailong Zhu and Fang-Fang Liao, Almost Automorphic Solutions of Non-autonomous Differential Equations. Bulletin of Iranian Mathematical Society, 2018, Vol.44, No.1, pp. 205–223. DOI: 10.1007/s41980-018-0015-z 482. H Zhu, J. Chu, W. Zhang, Mean-square almost automorphic solutions for stochastic differential equations with hyperbolicity. Discrete and Continuous Dynamical Systems, series A, 2018, 38(4): 1935-1953. 2017 481. A. P. Afanas’ev and S. M. Dzyuba, Generalized-periodic motions of non-autonomous systems. Differential Equations, Vol. 53, No. 1, 2017, pp.1-7. 480. Marat Akhmet and Ardak Kashkynbayev, Bifurcation in Autonomous and Nonautonomous Differential Equations with Discontinuities. Springer Nature Singapore PteLtd. and Higher Education Press, 2017, viii+166 p. 479. Ofer Aluf, Microwive RF Antenas and Circuits. Springer, 2017, xvii+1052 p. 478. E.M. Bonotto, M.C. Bortolan, T. Caraballo and R. Collegari, Attractors for impulsive non-autonomous dynamical systems and their relations. Journal of Differential Equations, Vol.262, No.6, 2017, pp.3524–3550. 477. Bonotto E. M., Demuner D. P. and JImenez M. Z., CONVERGENCE FOR NON-AUTONOMOUS SEMIDYNAMICAL SYSTEMS WITH IMPULSES. NOTAS DO ICMC, SÉRIE MATEMÁTICA, No. 434, São Carlos – SP 2017, pp.1-34. 476. Bonotto E. M., Luciene P. Gimenes, and Ginnara M. Souto, Asymptotically almost periodic motions in impulsive semidynamical systems. Topological Methods in Nonlinear Analysis, Volume 49, Number 1 (2017), pp.133-163. 475. E. M. Bonotto, J. G. Mesquita and R. P. Silva, Global mild solutions for the non-autonomous 2D Navier-Stokes equations with impulse effects. Journal of Mathematical Fluid Mechanics, November 2017, pp.1-18. 474. Bunder J. E., Roberts A. J. and Keirekidis, Good coupling for the multiscale patch scheme on systems with microscale heterogeneity. Journal of Computational Physics, 337 (2017), pp.154–174. 473. ZHAO Caidi, YANG Ling, LIU Guowei and HSU Cheng Hsiung, Global Well-posedness and Pullback Attractor a Delayed Non-Newtonian Fluid on Two-dimensional Unbounded Domains. ACTA MATHEMATICAE APPLICATAE SINICA, Vol.40, No.2, 2017, pp. 287-311 (chinese). 472. T. Caraballo, J. A. Langa and R. Obaya, Pullback, forward and chaotic dynamics in 1D non-autonomous linear-dissipative equations. Nonlinearity, 30 (2017), pp. 274–299. 471. Anibal Coronel, Christopher Maulen, Manuel Pinto and Daniel Sepulveda, ALMOST AUTOMORPHIC DELAYED DIFFERENTIAL EQUATIONS AND LASOTA-WAZEWSKA MODEL. DISCRETE AND CONTINUOUS DYNAMICAL SYSTEMS, Volume 37, Number 4, 2017 pp. 1959--1977. doi:10.3934/dcds.2017083 470. Hongyong Cui an Jose A. Langa, Uniform attractors for non-autonomous random dynamical systems. Journal of Differential Equations, 2017 (in press, 25 March 2017). 469. Brahim Es-sebbar and Khalil Ezzinbi, Almost periodicity and almost automorphy for some evolution equations using Favard’s theory in uniformly convex Banach spaces. Semigroup Forum, 2017, Vol 94, No 2, pp 229–259. 468. Peng Gao and Yong Li, AVERAGING PRINCIPLE FOR THE SCHR\"ODINGER EQUATIONS. DISCRETE AND CONTINUOUS DYNAMICAL SYSTEMS, SERIES B Volume 22, Number 6, 2017 pp. 2147--2168. 467. Hahn Jonathan, Rate-Dependent Bifurcations and Isolating Blocks in Nonautonomous Systems. PhD thesis, UNIVERSITY OF MINNESOTA, 2017. 466. Kalitine B. S., On Solving the Problems of Stability by Lyapunov’s Direct Method. Russian Mathematics, Vol. 61, No. 6, 2017, pp.27-36. 465. B. Karpuz, Sharp oscillation and nonoscillation tests for linear difference equations. Journal of Difference Equations and Applications, 2017 - Taylor & Francis DOI: 10.1080/10236198.2017.1379515. 464. Kostic Marko, ABSTRACT VOLTERRA INTEGRO-DIFFERENTIAL EQUATIONS: GENERALIZED ALMOST PERIODICITY AND ASYMPTOTICAL ALMOST PERIODICITY OF SOLUTIONS. Electronic Journal of Differential Equations, Vol. 2017 (2017), No. 239, pp.1--30. 463. Li X., PULLBACK D-ATTRACTORS FOR NON-AUTONOMOUS PARTLY DISSIPATIVE REACTION-DIFFUSION EQUATIONS IN UNBOUNDED DOMAINS. Bull. Iranian Math. Soc., Vol. 43 (2017), No. 2, pp. 515--534. 462. Carlos Lizama, Jaqueline G. Mesquitan, Rodrigo Ponce, and Eduard Toon, Almost automorphic solutions of Volterra equations on time scales. Differential Integral Equations, Vol. 30, Nr 9/10 (2017), 667-694. 461. Liu Guowei, Cite as Pullback Asymptotic Behavior of Solutions for a 2D Non-autonomous Non-Newtonian Fluid. Journal of Mathematical Fluid Mechanics, 2017, Vol. 19, Issue 4, pp 623–643 460. Li Wan, Qinghua Zhou and Jie Liu, Delay-dependent attractor analysis of Hopfield neural networks with time-varying delays. Chaos Solitons & Fractals, 101, 2017, pp.68-72. DOI: 10.1016/j.chaos.2017.05.017 459. Li Wan, Qinghua Zhou and Jie Liua, Delay-dependent attractor analysis of Hopfield neural networks with time-varying delays. Chaos, Solitons & Fractals, Vol. 101, 2017, pp. 68--72. 458. Carlos Lizama, Jaqueline G. Mesquitan, Rodrigo Ponce, and Eduard Toon, Almost automorphic solutions of Volterra equations on time scales. Differential Integral Equations, Vol. 30, No 9/10 (2017), pp.667-694. 457. S. Meddouri, S. Rastegarpour and L. Ferrarini, A nonlinear Lyapunov-based control for an autonomous variable-speed wind turbine. 6th International Conference on Clean Electrical Power (ICCEP),} 2017, pp.430--436. 456. Nawrocki Adam, ON SOME APPLICATIONS OF CONVOLUTION TO LINEAR DIFFERENTIAL EQUATIONS WITH LEVITAN ALMOST PERIODIC COEFFICIENTS. Topological Methods in Nonlinear Analysis, Vol.50, No.2, 2017, pp.489-512. DOI: 10.12775/TMNA.2017.015 455. Alberto Padoan, Giordano Scarciotti and Alessandro Astolfi, A geometric characterisation of persistence of excitation condition for the solutions of autonomous systems. IEEE Transactions on Automatic Control, 62 (2017), no. 11, 5666-5677. DOI 10.1109/TAC.2017.2687760. 454. N. L. Reyes and Leb Babilonia, A discrete hierarchy of double bracket equations and a class of negative power series. Mathematical Control & Related Fields, 2017, 7(1): 41-52. 453. C. Wang, R. P. Agarwal and D. O'Regan, Weighted piecewise pseudo double-almost periodic solution for impulsive evolution equations. J. Nonlinear Sci. Appl., 10 (2017), pp.3863–3886. 452. X. Wang, Z. Yang and X. Liu, Periodic and almost periodic oscillations in a delay differential equation system with time-varying coefficients. Discrete & Continuous Dynamical Systems, 2017, 37(12):6123-6138. 451. Zhinxian Xia, Almost automorphic solutions of semilinear stochastic hyperbolic differential equations in intermediate space. Kodai Math. J., Volume 40, Number 3 (2017), pp.492-517. 450. Zhianan Xia, Meng Fan and Ravi P Agarwal, ALMOST AUTOMORPHIC DYNAMICS OF GENERALIZED LIENARD EQUATION. Journal of Applied Analysis and Computation, Volume 7, Number 1, 2017, pp.20--38. 449. Bo You, Random attractors for the three dimensional stochastical planetary geostrophic equations of large-scale ocean circulation. Stochastics: An International Journal of Probability and Stochastic Processes, 2017, Pages 1-20. 448. Bo You, The existence of a random attractor for the three dimensional damped Navier–Stokes equations with additive. Journal Stochastic Analysis and Applications, Vol.35, No.4, 2017, pp. 691-700. 447. Bo You, Random attractors for the three dimensional stochastical planetary geostrophic equations of large-scale ocean circulation. Stochastics: An International Journal of Probability and Stochastic Processes, 2017, Pages 1-20. 446. Caidi Zhao and Guowei Liu Rong An, Global Well-Posedness and Pullback Attractors for an Incompressible Non-Newtonian Fluid with Infinite Delays. Differential Equations and Dynamical Systems, 2017, Vol. 25, No. 1, pp. 39–64. 445. Xu Zhang, Dynamics of Nonautonomous Ordinary Differential Equations with Quasi-Periodic Coefficients. International Journal of Bifurcation and Chaos, Vol.27, No.6 (2017) 1750092 (24 pages) 444. Xu Zhang, Dynamics of a class of fractional-order non-autonomous Lorenz-type systems. Chaos, 27(4):041104 April 2017 DOI: 10.1063/1.4981909. 2016 443. Marat Akhmet and Ardak Kashkynbayev, Nonautonomous Bifurcations in Nonlinear pulsive Systems. Differential Equations and Dynamical Systems. (2016). doi:10.1007/s12591-016-0309-7. 442. Jan Andres and Lech Górniewicz, Note on essential fixed points of approximable multivalued mappings. Fixed Point Theory and Applications, (2016), 13 pages. 2016:78 DOI 10.1186/s13663-016-0568-6. 441. Everaldo de Mello Bonotto, Monotone impulsive dynamical systems. Collectanea Mathematica, 2016, pp.1-8. 440. Everaldo de Mello Bonotto and Jaqueline da Costa Ferreira, Dissipativity in impulsive systems via Lyapunov functions. Math. Nachr., 289, No. 2–3, pp.213–231 (2016) / DOI 10.1002/mana.201400398. 439. E. Brestovanska and M. Medved, Solow multi-capital growth model described by a system of differential equations on time scales. Differential Equations & Applications,Volume 8, Number 3 (2016), pp.335–348. doi:10.7153/dea-08-17 438. Juan Gabriel Brida and Gaston Cayssials, The Mankiw-Romer-Weil model with decreasing population growth rate. International Journal of Mathematical Modelling and Numerical Optimisation (IJMMNO), Vol. 7, No. 3/4, 2016, pp.363 - 375. 437. C. A. Cardoso, J. A. Langa and R. Obaya, Pullback, forward and chaotic dynamics in 1D non-autonomous linear-dissipative equations. Nonlinearity, Vol. 30, No. 1, 2016. 436. C. A. Cardoso, J. A. Langa and R. Obaya, Characterization of Cocycle Attractors for Nonautonomous Reaction–Diffusion Equations. International Journal of Bifurcation and Chaos, Vol. 26, No. 8 (2016) 1650135 (20 pages). 435. Constantin Corduneanu, Yizeng Li and Mehran Mahdavi, Functional Differntial Equations. Advances and Applicaions. Wiley, 2016, xvi+343 pp. 434. C. Wang, R. P. Agarwal and D. O’Regan, Pi-semigroup for invariant under translations time scales and abstract weighted pseudo almost periodic functions with applications Dynamic systems and Applications, 25 (2016), pp.1-28. 433. Mickael D. Chekrouna, Eric Simonnetc and Michael Ghil, Stochastic climate dynamics: Random attractors and time-dependent invariant measures. Phisika D, 2016. 432. Hongyong Cui, José A. Langa, Yangrong Li and José Valero, Attractors for multi-valued non-autonomous dynamical systems: relationship, characterization and robustness. Set-Valued and Variational Analysis, November 2016, pp.1-38. 431. Mamadou Abdoul Diop, Khalil Ezzinbi and Mamadou Moustapha Mbaye, Existence and global attractiveness of a square-mean mu-pseudo almost automorphic solution for some stochastic evolution equation driven by L\'evy noise. Math. Nachr., pp.1--21 (2016) / DOI 10.1002/mana.201500345. 430. Samuel Effah-Poku, CHAOS IN DYNAMICAL SYSTEMS. PhD thesis. KWAME NKRUMAH UNIVERSITY OF SCIENCE AND TECHNOLOGY, KUMASI (Ghana), 2016. 429. Brahim Es-sebbar and Khalil Ezzinbi, Almost periodicity and almost automorphy for some evolution equations using Favard’s theory in uniformly convex Banach spaces. Semigroup Forum, 2016, pp. 1–31. 428. El Hadi Ait Dads, Brahim Es-sebbar, Khalil Ezzinbi and Mohamed Ziat, Behavior of bounded solutions for some almost periodic neutral partial functional differential equations. Mathematical Methods in the Applied Sciences, 2016, DOI: 10.1002/mma.4145. 427. Shihuang Hong and Yingzi Peng, Almost periodicity of set-valued functions and set dynamic equations on time scales. Information Sciences, 330(2016), pp.157–174. 426. Gregorz Guzik, Asymptotic properties of multifunctions, families of measures and Markov operators associated with cocycles. Nonlinear Analysis, 130 (2016), pp. 59–75. 425. Gregorz Guzik, Semiattractors of set-valued semiflows. Journal of Mathematical Analysis and Applications, v.435, no.2, 2016, pp.1321--1334. 424. P. Kloeden and Meihua Yang, Forward attr Differaction in nonautonomous difference equations. Journal of Difference Equations and Applications, 2016 Vol. 22, No. 8, pp.1027–1039. 423. Yongkun Li and Bing Li, Existence and exponential stability of positive almost periodic solution for Nicholson’s blowflies models on time scales. SpringerPlus, (2016) 5:1096 DOI 10.1186/s40064-016-2700-9. 422. Li, Xiaona Wei and Yanhong Zhang, The Existence of Weak D -Pullback Exponential Attractor for Nonautonomous Dynamical System. The Scientific World Journal, Volume 2016, 2016, Article ID: 1871602, 9 pages. 421. Guowei Liu, Pullback Asymptotic Behavior of Solutions for a 2D Non-autonomous Non-Newtonian Fluid. Journal of Mathematical Fluid Mechanics, (2016), pp 1–21. doi:10.1007/s00021-016-0299-9 420. Zhenxin Liu and Wenhe Wang, Favard separation method for almost periodic stochastic differential equations. Journal of Differential Equations, Vol.260, 2016, pp.8109--8136. 419. Grzegorz Lukaszewicz and Piotr Kalita, Navier–Stokes Equations: An Introduction with Applications. Advances in Mechanics and Mathematics Volume 34. Springer International Publishing Switzerland 2016. 418. Baraka Olivier Mushage, Jean Chamberlain Chedjou and Kyandoghere Kyamakya, An extended Neuro-Fuzzy-based robust adaptive sliding mode controller for linearizable systems and its application on a new chaotic system. Nonlinear Dyn , (2016), 83, pp.1601–1619. 417. Ioan A. Rus, Remark on a LaSalle conjecture on global asymptotic stability. International Conference on Nonlinear Operators, Differential Equations. INTERNATIONAL JOURNAL ON FIXED POINT THEORY COMPUTATION AND APPLICATIONS · 2016 Volume: 17 416. V. E. Slyusarchuk, Almost-periodic solutions of discrete equations. Izvestiya: Mathematics,2016, 80:2 pp.403–416. 415. Gilles Wainrib, Mathieu N. Galtier, local Echo State Property through the largest Lyapunov exponent. Neural Networks, Volume 76, 2016, pp.39–45. 414. Jinying Wei, Yongjun Li and Xiaohua Zhuo, The Existence and Stability of Synchronizing Solution of Non-Autonomous Equations with Multiple Delays. Journal of Applied Mathematics and Physics,} 2016, 4, pp.1294-1299. 413. Bo You and Fang Li, Random attractor for the three-dimensional planetary geostrophic equations of large-scale ocean circulation with small multiplicative noise. Stochastic Analysis and Applications , 34(2), 2016, pp. 278-292. 412. Bo You and Fang Li, Pullback attractors of the two-dimensional non-autonomous simplified Ericksen–Leslie system for nematic liquid crystal flows. Zeitschrift für angewandte Mathematik und Physik, August 2016, 67:87. doi:10.1007/s00033-016-0680-9 411. Xu Zhang, Dynamics of a Class of Nonautonomous Lorenz-Type Systems. International Journal of Bifurcation and Chaos in Applied Sciences and Engineering, Volume 26, Issue 12, November 2016. 410. Xu Zhang, Regular Nonchaotic Attractors with Positive Plural. International Journal of Bifurcation and Chaos, Vol. 26, No. 14 (2016) (9 pages). 409. L. Zhao, M. Yang and C. Zhang, Dynamics for the damped Boussinesq equation with delay. Stochastics and Dynamics, Vol.16, No. 6, 2016, pp.1-11. 408. Qinghua Zhou, Li Wan, Hongbo Fu and Qunjiao Zhang, Pullback attractor for Cohen–Grossberg neural networks with time-varying delays. Neurocomputing, Volume 171, 2016, pp.510–514. 407. Kaixuan Zhu and Feng Zhou, Continuity and pullback attractors for a non-autonomous reaction--diffusion equation in $R^{n}$. Computers and Mathematics with Applications,71 (2016) pp.2089–2105. 2015 406. Luciano Abadias and Carlos Lizama, Almost automorphic mild solutions to fractional partial difference-differential equations. Applicable Analysis: An International Journal, 2015, DOI: 10.1080/00036811.2015.1064521 . 405. Carlos Braga Barros, Victor Rocha, and Josiney Souza, Lyapunov Stability and Attraction Under Equivariant Maps. Canad. J. Math., Vol. 67 (6), 2015, pp.1247--1269. 404. E. M. Bonotto, L. P. Gimenes and G. M. Souto, On Jack Hale's problem for impulsive systems. Journal of Differential Equations, 259(2015), pp.642--665. 403. D. Cao, C. Sun and M. Yang, Dynamics for a stochastic reaction–diffusion equation with additive noise. Journal of Differential Equations, 259(3), 2015, pp.838–872. 402. Tomas Caraballo and Xiaoying Han, A survey on Navier-Stokes models with delays existence, Uniqueness and asymptotic behavior of solutions. Discrete and Continuous Dynamical Systems. Series S, Vol.8, No.6, 2015, pp.1070-1101. 401. Alexey Cheskidov and Landon Kavlie, Pullback Attractors for Generallized Evolutionary Systems. Discrete and Continuous Dynamical Systems--B, vol.20, no.3, 2015, pp.749-779. 400. Hans Crauel P and Peter E. Kloeden, Nonautonomous and Random Attractors. Jahresber Dtsch Math-Ver, 2015, pp. 399. Li Fang, The existence of a pullback attractor for the three dimensional non-autonomous 1pla1netary geostrophic viscous equations of arge-scale ocean circulation. Nonlinear Analysis, 112 (2015), pp.118--128. 398. Fang Li and Bo You, Pullback attractors for the non-autonomous complex Ginzburg–Landau type equation with p -Laplacian. Nonlinear Analysis: Modelling and Control, Vol. 20, No. 2, 2015, pp.233–248. 397. Kexue Li, Weighted pseudo almost automorphic solutions for nonautonomous SPDEs driven by Levy noise. Journal of Mathematical Analysis and Applications, Vol. 427, No. 2, 2015, pp.686–-721. 396. P. Figueroa and M. Pinto, Poincare's problem in the class of almost periodic type functions. Bull. Belg. Math. Soc. Simon Stevin, 22 (2), 2015, pp.177-198. 395. Petr Hasil and Michal Vesely, Limit periodic homogeneous linear difference systems. Applied Mathematics and Computation, 265(2015), pp.958–972. 394. Shihuang Hong and Yingzi Peng, Almost periodicity of set-valued functions and set dynamic equations on time scales. Information Sciences, 330, 2015 · DOI: 10.1016/j.ins.2015.10.008 393. Meng Hu and Pingli Xie, Almost periodic solutions of neutral delay functional differential equations on time scales. Bulletin of the Malaysian Mathematical Sciences, 2015, 38(1), pp.317-331. 392. Landon James Kavlie, An investigation of the forced Navier-Stokes equations in two and three dimensions. PhD thesis, University of Illinois at Chicago, 2015, pp.1-131. 391. G. A. Leonov, N. V. Kuznetsov and T. N. Mokaev, Homoclinic orbits, and self-excited and hidden attractors in a Lorenz-like system describing convective fluid motion. Eur. Phys. J. Special Topics, 224, 2015, pp.1421--1458. 390. Fang Li and Bo You, Pullback attractors for the non-autonomous complex Ginzburg–Landau type equation with p-Laplacian. Nonlinear Analysis: Modelling and Control, Vol. 20, No. 2, 2015, pp.233–248. 389. Fang Li and Bo You, Pullback attractors for the non-autonomous complex Ginzburg–Landau type equation with p-Laplacian. Nonlinear Analysis: Modelling and Control, Vol. 20, No. 2, 2015, pp.233–248. 388. Kexue Li, Weighted pseudo almost automorphic solutions for nonautonomous SPDEs driven by Levy noise. Journal of Mathematical Analysis and Applications, Vol. 427, No. 2, 2015, pp.686–-721. 387. Yongkun Li and Bing Li, Positive almost periodic solution for Nicholson's blowflies models on time scales. SpringerPlus,} (2016) 5:1096, pp.1-24. DOI 10.1186/s40064-016-2700-9 386. P. Kloeden and T. Lorenz, Construction of nonautonomous forward attractors. Proceedings of the American Mathematical Society, 2015 , pp.1--10. 385. P. Kloeden and Meihua Yang, Forward attraction in nonautonomous difference equations. Journal of Difference Equations and Applications, 2015. 384. A. A. Levakov, Ya., B. Zadvorncyi, Stable sets, attracting sets, and attractors of semidynamical systems in nonlocally compact metric spaces. Differential Equations, 2015, 51(7), pp. 847-856. 383. Yongjun Li, Suyun Wang and Tinggang Zhao, The existence of pullback exponential attractors for nonautonomous dynamical system and applications to nonautonomous reaction diffusion equations. Journal of Applied Analysis and Computation, Vol.5, No.3, 2015, pp.388--405. 382. H. Ma, J. Gao and L. Xie, Global stability of positive periodic solutions and almost periodic solutions for a discrete competitive system. Discrete Dynamics in Nature and Society, 2015, Volume 2015, Article ID 658758, 13 pages. 381. Michetti E., Complex attractors and basins in a growth model with nonconcave production function and logistic population growth rate. Mathematics and Computers in Simulation, vol. 108, 2015, pp. 215 – 232. 380. Baraka Olivier Mushage, Jean Chamberlain Chedjou and Kyandoghere Kyamakya, An extended Neuro-Fuzzy-based robust adaptive sliding mode controller for linearizable systems and its application on a new chaotic system. Nonlinear Dynamics, October 2015, pp.1-15. 379. Shun SATO, Takayasu MATSUO, Hideyuki SUZUKI and Daisuke FURIHATA, A Lyapunov-Type Theorem for Dissipative Numerical Integrators with Adaptive Time-Stepping. SIAM Journal on Numerical Analysis,} 2015, Vol.53, No.6, pp.2505--2518. 378. Jacson Simsen and Erika Capelato, Some Properties for Exact Generalized Processes. Continuous and Distributed Systems II Studies in Systems, Decision and Control. Volume 30, 2015, pp. 209-219. 377. Chunyou Sun and Yanbo Yuan, $L^{p}$-type pullback attractors for a semilinear heat equation on time-varying domains. Proceedings of the Royal Society of Edinburgh, 145A, 1029--1052, 2015. 376. Yejuan Wang, Pullback attractors for a damped wave equation with delays. Stochastics and Dynamics, vol.15, no.1, 2015, pp. 375. Xiao-li Xie, Chunhua Zhang, Xiaoxing Chen and Jiangyonge Chen, Almost periodic sequence solution of a discrete Hassell–Varley predator-prey system with feedback control. Applied Mathematics and Computation,} 268(2015), pp.35–51. 374. Xingjie Yan and Wei Qi, Pullback Exponential Attractors for Nonautonomous Reaction–Diffusion Equations. Int. J. Bifurcation Chaos 25,(2015) [16 pages] DOI: 10.1142/S0218127415500637. 373. Zhijian Yao, Existence and global exponential stability of an almost periodic solution for a host-macroparasite equation on time scales. Advances in Difference Equations, (2015) 2015:41, pp.1--20. DOI 10.1186/s13662-015-0383-0 372. Zhijian Yao, Uniqueness and global exponential stability of almost periodic solution for Hematopoiesis model on time scales. J. Nonlinear Sci. Appl. 8 (2015), pp.142--152. 371. B. You and F. Li, The existence of a pullback attractor for the three dimensional non-autonomous planetary geostrophic viscous equations of large-scale ocean circulation. Nonlinear Analysis: Theory, Methods & Applications, Vol. 112, 2015, pp.118–128. 370. Lu Zhao, Chengjian Zhang and Dongfang Li, Global attractor for a class of retarded lattice dynamical systems. Journal of Mathematical Analysis and Applications, Vol. 425, No. 1, 2015, pp. 178–-193. 369. Qinghua Zhou, Li Wan, Hongbo Fu and Qunjiao Zhang, Pullback attractor for Cohen–Grossberg neuralnetworks with time-varying deklays. Neurocomputing, 2015 (at press). 2014 368. Akhmet M. U. and Kashkynbayev A., Non-autonomous bifurcation in impulsive systems. Electron. J. Qual. Theory Differ. Equ. 2014, No. 74, 23 pp 367. Juan Campos and Massimo Tarallo, Almost automorphic linear dynamics by Favard theory. J. Differential Equations, 2014, 256 (4), pp. 1350-1367 . 366. Martin Chvatal, Non-almost periodic solutions of limit periodic and almost periodic homogeneous linear difference systems. Electronic Journal of Qualitative Theory of Differential Equations, 2014, No. 76 , pp.1–-20. 365. Radoslaw Czaja, Pullback exponential attractors with admissible exponential growth in the past. Nonlinear Analysis: Theory, Methods & Applications, Volume 104, July 2014, pp.90-108. 364. Zengji Du and Wenbin Li, Almost Periodic Sequence Solutions of a Discrete Predator-Prey System with Beddington-DeAngelis Functional Response. Abstract and Applied Analysis, 2014, Article ID 380612, 12 pages. 363. Petr Hasil and Michal Vesely, Limit periodic linear difference systems with coefficient matrices from commutative groups. Electronic Journal of Qualitative Theory of Differential Equations, 2014, No. 23, pp.1–25. 362. Petr Hasil and Michal Vesely, Conditional oscillation of Riemann-Weber half-linear Differential equations with asymptotically almost periodic coefficients. Studia Scientiarum Mathematicarum Hungarica, 51(3)(2014), pp.303-321. 361. Juan C. Jara and Felipe Rivero, Asymptotic behavior for pre-predstor systems and logistic equations with unbounded time-dependent coefficients. Discrete and continuous dynamical systems, Volume 34, Number 10, October 2014 pp. 4127-4137. 360. Lev Kapitanskii and Sanja Gonzalez Zivanovic, Variable time step dynamics with choice. Journal of Dynamics and Differential Equations, v.26 , no. 3, 2014, pp.723--744 . 359. Lev Kapitanskii and Sanja Gonzalez Zivanovic, Attractors in hyperspace. Topological Methods in Nonlinear Analisis, v.44 , no.1 , 2014, pp.199-228. 358. G. M. N'Guerekata, On Asymptotically Almost Automorphic C-semigroups. Journal of Concrete & Applicable Mathematics, 2014, Vol. 12, Issue 1/2, pp.116-123. 357. Xiaojun Li and Li Ren, Dynamics of non-autonomous parabolic problems with subcritical and critical nonlinearities. Bulletin des Sciences Mathematiques, 138(4), 2014, pp.540–564. 356. Yongkun Li, Li Yang and Wanqin Wu, Almost periodic solutions for a class of discrete systems with Allee-effect. Applications of Mathematics, 2014, Volume 59, Issue 2, pp. 191-203. 355. H. Li and W. Zhang, On pullback attractors in $H^{2}$ for non-autonomous reaction-diffusion equations. Control and Decision Conference (2014 CCDC), The 26th Chinese Date of Conference: May 31-- 2014-June 2, 2014, pp. 693 - 696. 354. G. Manjunath and H. Jaeger, The Dynamics of Random Difference Equations Is Remodeled by Closed Relations. SIAM J. Math. Anal., 46(1), pp.459–483. 353. Yin Fu Qi, Liu Lin Fang Xiao and Cui Hui, Periodic D-pullback attractor for a stochastic sine-Gordon equation on unbounded domains. Acta Math. Sinica (Chin. Ser.) 57 (2014), no. 6, pp.1127-1140. 352. T. Tachim Medjo, Pullback attractors for the multi-layer quasi-geostrophic equations of the ocean. Nonlinear Analysis: Real World Applications, Volume 17, June 2014, pp.365-382. 351. T. Tachim Medjo, Pullback attractors for a non-autonomous Cahn–Hilliard–Navier–Stokes system in 2D. Asymptotic Analysis, Vol. 90, No. 1-2, 2014, pp.21--51. 350. Moussi M., Pullback Attractors of Nonautonomous Boundary Cauchy Problems. Nonlinear Dynamics and Systems Theory, Vol. 14, No.4, 2014, pp.383--394. 349. Sun Hye Park and Jong Yeoul Park, Pullback attractor for a non-autonomous modified Swift-Hohenberg equation. Computers & Mathematics with Applications, Volume 67, Issue 3, February 2014, pp.542-548. 348. Jacson Simsen, Marcelo J.D. Nascimento and Mariza S. Simsen, Existence and upper semicontinuity of pullback attractors for non-autonomous p-Laplacian parabolic problems. Journal of Mathematical Analysis and Applications, Vol. 413, No. 2, 2014, pp.685-699. 347. Josiney A. Souza, Global attractors in fiber bundles and right invariant systems. Journal of Differential Equations, Vol. 257, No. 1, 2014, pp.167-184. 346. Josiney A. Souza, On limit behavior of skew-product transformation semigroups. Math. Nachr., Volume 287, Issue 1, 2014, pp.91-104. 345. Chao Wang and Ravi P. Agarwal, Weighted piecewise pseudo almost automorphic functions with applications to abstract impulsive $\nabla$-dynamic equations on time scales. Advances in Difference Equations, 2014, 2014:153, pp.1-23. 344. Yao Xiaojie, Almost periodicity in a harvesting Lotka-Volterra recurrent neural networks with mixed delays and impulses. Control Conference (CCC), 2014 33rd Chinese, 28-30 July 2014, pp. 5107 - 5112. 343. Zhijian Yao, Existence and exponential stability of the unique positive almost periodic solution for the Lasota-Wazewska difference model. Advances in Difference Equations, 2014, 2014:206, pp.1-11. 342. X. Yao and F. Qin, Almost periodicity in a harvesting Lotka-Volterra recurrent neural networks with mixed delays and impulses. Control Conference (CCC),} 2014 33rd Chinese, 28-30 July 2014, pp.5107 - 5112. 341. Bo You and Fang Li, Pullback attractors for the non-autonomous p-Laplacian equation with dynamic flux boundary conditions. Electronic Journal of Differential Equations, Vol. 2014 (2014), No. 74, pp. 1-11. 340. Bo You, Yanren Hou, Fang Li and Jinping Jiang, Pullback attractors for the non-autonomous Quasi-linear complex Ginzburg-Landau equation with p-Laplacian. Discrete and Continuous Dynamical Systems, Series B, Vol. 19, No. 6, 2014, pp.1801--1814. 339. Bo You, Chengkui Zhong and Fang Li, Pullback attractors for three dimensional non-autonomous planetary geostrophic viscous equations of large-scale ocean circulation. Discrete and Continuous Dynamical Systems, Series B, Vol. 19 , No. 4 , 2014, pp. 1213-1226. 338. Fanghong Zhang and Yongfeng Liu, Pullback attractors in $H^{1}(R^n)$ for non-autonomous nonclassical diffusion equations. Dynamical Systems: An International Journal, Vol. 29, No. 1, 2014 ,pp.542-548. 337. Caidi Zhao, Guowei Liu and Weiming Wang, Smooth Pullback Attractors for a Non-autonomous 2D Non-Newtonian Fluid and Their Tempered Behaviors. J. Math. Fluid Mech., 16 (2014), pp.243–262. 336. Caidi Zhao, Guowei Liu and Rong An, Global Well-Posedness and Pullback Attractors for an Incompressible Non-Newtonian Fluid with Infinite Delays. Differential Equations and Dynamical Systems, Vol.8, No.25, 2014, pp.2008--2015. 335. Tianwei Zhang, Almost periodic oscillations in a generalized Mackey–Glass model of respiratory dynamics with several delays. International Journal of Biomathematics, 2014, 07(03). DOI:10.1142/S1793524514500296 2013 334. A. P. Afanas’ev and S. M. Dzyuba, Weak periodic shift operator and generalized-periodic motions. Differential Equations, Vol. 49, No. 1, 2013, pp.126-131. 333. Akhmet M. U. and Kashkynbayev A., Nonautonomous transcritical and pitchfork bifurcations in impulsive systems. Miskolc Mathematical Notes, Vol. 14 (2013), No. 3, pp. 737–748. 332. Jehad O. Alzabut, Existence and Exponential Convergence of almost Periodic Solutions for a Discrete Nicholson’s Blowflies Model with Nonlinear Harvesting Term. Mathematical Sciences Letters. An International Journal, 2, No. 3 (2013), pp.201-207. 331. Jose M. Amigo, Peter E. Kloeden and Angel Gime´nez, Entropy Increase in Switching Systems. Entropy, 2013, 15, pp.2363-2383; doi:10.3390/e15062363 330. Jose M. Amigo, Peter E. Kloeden and Angel Gime´nez, Switching Systems and Entropy. Journal of Difference Equations and Applications, Vol. 19, No. 11, pp.1872–1888, 2013. 329. L.F. Araghi, A.A. Suratgar and E. Feizi, Stability of a Class of Switched Linear Systems with Infinite Number of Subsystems. Journal of Control Engineering and Applied Informatics, Vol. 15, No.3, 2013, pp. 38-44. 328. H. Bessaih, M. J. Carrida-Atienza and B. Schmalfuss, Pathwise solutions and attractors for retarded SPDEs with time smooth diffusion coefficients. Discrete and Continuous Dynamical Systems, 24(10), 2013 . 327. E.M. Bonottoa and D.P. Demuner, Atractors of impulsive dissipative semidynamical systems. Bulletin des Sciences Mathematiques, 137 (2013), no. 5, pp.617–642. 326. E.M. Bonottoa and D.P. Demuner, Autonomous dissipative semidynamical systems with impulses. Topol. Methods Nonlinear Anal. (accepted), 2013 325. M. C. Bortolan, Structure of attractors and estimates of their fractal dimension. PhD theses, 2013 (University of Sao Paulo, Sao Carlos). 324. Alexandre N. Carvalho, Jose A. Langa and James C. Robinson, Attractors for infinite-dimensional non-autonomous dynamical systems. Applied Mathematical Sciences, Volume 182. Springer, New York, 2013. 323. Alexandre Carvalho and Sonner Stefanie, Pullback exponential attractors for evolution processes in Banach spaces: theoretical results. Commun. Pure Appl. Anal., 12 (2013), no. 6, pp.3047-3071 322. Yong Chen, Random attractors of the stochastic damped forced Ostrovsky equation. Journal of Mathematical Analysis and Applications, Vol. 404, No. 2, 2013, pp.283–299. 321. Chen Z. and Lin W., Square-mean weighted pseudo almost automorphic solutions for non-autonomous stochastic evolution equations. Journal des Mathematiques Pures et Appliquees, 2013 100 (4) , pp. 476-504. 320. Jose S. Canovas, On the Topological Entropy of Some Skew-Product Maps. Entropy, 2013,15(8), 3100-3108; doi:10.3390/e15083100 319. Jin-ping JIANG and Xiao-xia WANG, Global attractor of 2D autonomous g-Navier-Stokes equations. Appl. Math. Mech., Engl. Ed., 34(3), 385–394 (2013) DOI 10.1007/s10483-013-1678-7. 318. Ben Slimene Jihed, Reductibilite et Theorie de Floquet pour des Systèmes Differentiels non Lineaires. PhD theses, 2013. 317. Petr Hasil and Michal Vesely, Oscillation of half-linear differential equations with asymptotically almost periodic coefficients. Advances in Difference Equations, 2013, 2013:122 doi:10.1186/1687-1847-2013-122. 316. Kalitine B. S.,Stability of Dynamical Systems. Lyapunov Sign-constant Functions Method. LAP LAMBERT Academic Publishing, 2013, 258 p. (in Russian) 315. P. E. Kloeden and V. S. Kozyakin, Asymptotic Behaviour of Random Tridiagonal Markov Chains in Biological Applications. Discrete and Continuous Dynamical Systems, Series B, 18 (2013), no. 2, PP.453-465. 314. Peter E. Kloeden and Christian Pötzsche, Nonautonomous Dynamical Systems in the Life Sciences. Lecture Notes in Mathematics, 2013, pp 3-39. 313. P. E. Kloeden, C. Potzsche and M. Rsmussen, Discrete-time Nonautonomous Dynamical Systems. Stability and Bifurcation Theory for Non-Autonomous Differential Equations. Lecture Notes in Mathematics, v.2065, Springer-Verlag Berlin Heidelberg, 2013, pp. 35-102. 312. Dingshi Li and Daoyi Xu, Attracting and quasi-invariant sets of stochastic neutral partial functional differential equations. Acta Mathematica Scientia, Vol. 33, No. 2, 2013, pp. 578–588. 311. Desheng Li, Jinying Wei and Jintao Wang, On the Dynamics of Abstract Retarded Evolution Equations. Abstract and Applied Analysis, Volume 2013, Article ID 359310, 9 pages. 310. Li Kun and Li Fang, Pullback attractor for nonautonomous primitive equations of large-scale ocean and atmosphere dynamics. Abstr. Appl. Anal., 2013, Art. ID 691615, 12 pp. 309. Guoguang Lin, Fangfang Xi and Guigui Xu, The Global and Pullback Attractors for a Strongly Damped Wave Equation with Delays. International Journal of Modern Nonlinear Theory and Application, 2013, 2, pp.209-218. 308. Kun Li and Fang Li, Pullback attractor for non-autonomous primitive equations of large-scale ocean atmosphere dynamics. Abstract and Applied Analysis, 2013, pp.1-29. 307. Carlos Lizama and Jaqueline G. Mesquita, Almost automorphic solutions of non-autonomous difference equations. Journal of Mathematical Analysis and Applications, 407 (2), 2013, pp.339-349. 306. Carlos Lizama and Jaqueline G. Mesquita, ALMOST AUTOMORPHIC SOLUTIONS OF DYNAMIC EQUATIONS ON TIME SCALES. Journal of Functional Analysis, 407 (2), 2013, pp.339-349. 305. X Li, L Ren, Dynamics of non-autonomous parabolic problems with subcritical and critical nonlinearities. Bulletin des Sciences Mathematiques, (at press) 2013 304. Xiaoli Liu and Yejuan Wang, Pullback Attractors for Nonautonomous 2D-Navier-Stokes Models with Variable Delays. Abstract and Applied AnalysisVolume, 2013 (2013), Article ID 425031, 10 pages. http://dx.doi.org/10.1155/2013/425031 303. Novo, Sylvia, and Obaya Rafael, Non-autonomous Functional Differential Equations and Applications. Stability and Bifurcation Theory for Non-Autonomous Differential Equations. Lecture Notes in Mathematics, v.2065, Springer-Verlag Berlin Heidelberg, 2013, pp. 185-263 302. Sylvia Novo, Rafael Obaya and Ana M. Sanz, Topological Dynamics for Monotone Skew-Product Semiflows with Applications. Journal of Dynamics and Differential Equations, 2013, v.25, p.1201–1231. 301. Josiney A. Souza, On limit behavior of skew-product transformation semigroups. Mathematische Nachrichten, 2013 (at press) DOI: 10.1002/mana.201200190 300. Josiney A. Souza and Stephanie A. Raminelli, Global attractors for semigroup actions. Journal of Mathematical Analysis and Applications, 2013 Volume 407, Issue 2, 2013, pp. 316–327. 299. Tarallo Massimo, The Favard Separation Condition for Almost Periodic Linear Systems. Journal of Dynamics and Differential Equations, 2013, Volume 25, Issue 2, pp. 291-304. 298. Q. Wang and Z. Liu, Uniformly asymptotically stability of positive almost periodic solutions for a discrete competitive system. Journal of Applied Mathematics, Volume 2013, Article ID 182158, 9 pages. 297. Z. Yao, Existence and exponential convergence of almost periodic positive solution for Nicholson's blowflies discrete model with linear harvesting term. Mathematical Methods in the Applied Sciences, 2013 (at press). 296. Yin Yong, Jianli Li and Yanli Xu., Positive almost periodic solution of discrete nonlinear survival red blood cells model with feedback control. Journal of Applied Mathematics and Computing, 2013, Vol. 42, No.1-2, pp. 283-296. 295. Hongtao Zhang and Yongkun Li, Almost periodic solutions to dynamic equations on time scales. Journal of the Egyptian Mathematical Society, (2013) 21, pp.3–10. 294. Caidi Zhao, Guowei Liu and Weiming Wang, Smooth Pullback Attractors for a Non-autonomous 2D Non-Newtonian Fluid and Their Tempered Behaviors. Journal of Mathematical Fluid Mechanics, 2013 (at press), DOI 10.1007/s00021-013-0153-2. 293. Yi Zhang, Yuyun Zhao, Honglei Xu, Hongting Shi and Kok Lay Teo, On Boundedness and Attractiveness of Nonlinear Switched Delay Systems. Abstract and Applied Analysis, Volume 2013, Article ID 713847, 8 pages, 2013. 2012 292. Jehad Alzabut, Dynamics of almost periodic solutions for a discrete Fox harvesting model with feedback control. Advances in Difference Equations, 2012, 2012:157, 15 pages. 291. Cai J. and Lou B., Convergence in a quasilinear parabolic equation with time almost periodic boundary conditions. Nonlinear Analysis: Theory, Methods and Applications, volume 75, issue 17, 2012, pp. 6312 – 63247 290. Radoslaw Czaja, Bi-space pullback attractors for closed processes. Sao Paulo Journal of Mathematical Sciences, 6, 2 (2012), pp.227–246. 289. Q. Din, T. Donchev, D. Kolev, Attractors, approximations and fixed sets of evolution systems. International Journal of Pure and Applied Mathematics, vol.74, no.2, 2012, pp.183-197. 288. Petr Hasil and Michal Vesely, Almost Periodic Transformable Difference Systems. Applied Mathematics and Computation, Vol.218, No.9, 2012, pp.5562-5579. 287. HU Meng and WANG Li-li, Almost periodic solution for a discrete population system with feedback control. Journal of Northwest Normal University (Natural Science),} Vol.48, 2012, no.2, pp.11-14. 286. Zhiyuan Hu and Yejuan Wang, Pullback attractors for a nonautonomous nonclassical diffusion equation with variable delay. J. Math. Phys., Vol.53, 0727027 (2012): http://dx.doi.org/10.1063/1.4736847 (17 pages) In press. 285. Jiang Jinping, Hou Yanren and Wang Xiaoxia, The pullback asymptotic behavior of the solutions for 2D nonautonomous G-Navier-Stokes equations. Adv. Appl. Math. Mech., 4 (2012), no. 2, pp.223-237. 284. Kalitine B. S., Stability of Dynamical Systems. Qualitative Theory. LAP LAMBERT Academic Publishing, 2012, 266 p. (in Russian) 283. Kalitine B. S., Stability of Dynamical Systems. Methof of sign-defined Lyapunov functions. LAP LAMBERT Academic Publishing, 2012, 258 p. (in Russian) 282. Yongkun Li and Chao Wang, Pseudo Almost Periodic Functions and Pseudo Almost Solutions to Dynamical Equations on Time Scales. Advance in Difference Equations, 2012, 2012:77. doi: 10.1186/1687-1847-2012-77. 281. Yongkun Li and Chao Wang, Almost Periodic Solutions to Dynamic Equations on Time Scales and Applications. Journal of Applied Mathematics, Volume 2012, Article ID 463913, 19 pages 280. Lu Yang, Meihua Yang and Peter E. Kloeden, Pullback attractors for non-autonomous quasi-linear parabolic equation with dynamical boundary conditions. Discrete and Continuous Dynamical Systems, serie B, Vol.17, no.7 (2012), pp.2635-2651. 279. T. Tachim Medjo, Pullback attractors for a non-autonomous homogeneous two-phases flow model. Journal of Differential Equations, 253 (2012), pp.1779-1806. 278. W. Obeng-Denteh and S. K. Manu, Essentials of Topology in the Contemporary Times. International Research Journal of Basic and Applied Sciences, Vol 4, No. 4, 2012, pp. 27-30. 277. Igor Parasyuk and Anna Rustamova, Variational Approach for Weak Quasiperiodic olutions of Quasiperiodically Exited Lagrangian Systems on Riemannian Manofolds. Electronic Journal of Differential Equations, Vol.2012 (2012), No.66, pp.1-22. 276. Jitsuro Sugie and Saori Hata, Global asymptotic stability for half-linear differential systems with generalizad almost periodic coefficients. Monatshefte fur Mathematic, Vol.166, no.2 (2012), pp.255-280. 275. Vesely M., Almost periodic homogeneous linear difference systems without almost periodic solutions. Journal of Difference Equations and Applications, Volume 18, Issue 10, 2012, pp. 1623-1647. 274. Vesely M., Almost periodic skew-symmetric differential systems. Electronic Journal of Qualitative Theory of Differential Equations, 2012, No. 72 , Electronic Journal of Qualitative Theory of Differential Equations 2012, No. 72 , pp.1-16. 273. Yin Yong, Jianli Li and Yanli Xu, Positive almost periodic solution of discrete nonlinear survival red blood cells model with feedback control. J. Appl. Math. Comp., DOI 10.1007/s12190-012-0641-1 (online,2012). 272. Mikhail Z. Zgurovsky, Pavlo O. Kasyanov, Oleksiy V. Kapustyan, Jose Valero and Nina V. Zadoianchuk, Abstract Theory of Multivalued Semiflows. Evolution Inclusions and Variation Inequalities for Earth Data Processing III}, Advances in Mechanics and Mathematics, 2012, Volume 27, Part 1, 3-36, DOI: DOI: 10.1007/978-3-642-28512-7-1 271. Mikhail Z. Zgurovsky, Pavlo O. Kasyanov, Oleksiy V. Kapustyan, Jose Valero and Nina V. Zadoianchuk, Pullback Attractors for a Class of Extremal Solutions of the 3D Navier - Stokes System. Evolution Inclusions and Variation Inequalities for Earth Data Processing III, Advances in Mechanics and Mathematics, 2012, Volume 27, Part 2, 231-257, DOI: 10.1007/978-3-642-28512-7-6 270. Caidi Zhao, Pullback asymptotic behavior of solutions for a non-autonomous non-Newtonian fluid on two-dimensional unbounded domains. Journal of Mathematical Physics, 53, 122702 (2012). 269. Shengfan Zhou and Xiaoying Han, Pullback Exponential Attractors for Non-autonomous Lattice Systems. Journal of Dynamics and Differential Equations, 2012, Volume 24, Issue 3, pp 601-631. 2011 268. Ayachi Moez, Blot Joel and Cieutat, Philippe, Almost periodic solutions of monotone second-order differential equations. Adv. Nonlinear Stud. 11 (2011), no. 3, pp. 541-554. 267. Bruno de Andrare and Carlos Lizama, Existence of asymptotically almost periodic solutions for damped wave equations. Journal of Mathematical Analysis and Applications, vol.382, no.2, 2011, pp.761-771. 266. Cao Junfei, Yang Qigui and Huang Zaitang, Existence and exponential stability of almost automorphic mild solutions for stochastic functional differential equations. STOCHASTICS-AN INTERNATIONAL JOURNAL OF PROBABILITY AND STOCHASTIC PROCESSES, Volume: 83 Issue: 3, 2011, Pages: 259-275. 265. T. Caraballo, A. N. Carvalho, J. A. Langa and F. Rivero, A non-autonomous strongly damped wave equation: Existence and continuity of the pullback attractor. Nonlinear Analysis, v.74, no.6, 2011, pp.2272-2283. 264. Yong-Kui Chang, Zhi-Han Zhao and Juan J. Nieto, Pseudo almost automorphic and weighted pseudo almost automorphic mild solutions to semi-linear differential equations in Hilbert spaces. Revista Matematica Compulense, Vol.24, no.2, 2011, pp.421-438. 263. M. D. Chekroun, E. Simonnet and G. Ghil, Stochastic Climat Dynamics: Random Attractors and Time-Dependent Invariant Measures. Physics D, v.20, no.21, 2011, pp.1685-1700. 262. Xiaopeng Chen and Jinqiao Duan, State space decomposition for nonautonomous dynamical systems. Proceedings of the Royal Society of Edinburgh: Section A Mathematics, 2011.v.141, n.5, pp.957-974. 261. Xiaopeng Chen, Jinqiao Duan and Michael Scheutzow, Evolution systems of measures for stochastic flows. Dynamical Systems: An International Journal, 2011.v.26, n.3, pp.323-334. 260. Zhang Chen and Wei Lin, Square-mean pseudo almost automorphic process and its application to stochastic evolution equations. Journal of Functional Analysis, v.261, no.1, 2011, pp.69-89. 259. Radoslaw Czaja and Messoud Efendiev, Pullback exponential attractors for non-autonomous equations. Part I. Semilinear parabolic problems. Journal of Mathematical Analysis and Applications, v.381, no.2, 2011, pp.748-765. 258. Radoslaw Czaja and Messoud Efendiev, Pullback exponential attractors for non-autonomous equations. Part II. Applications to reaction-diffusion systems. Journal of Mathematical Analysis and Applications, v.381, no.2, 2011, pp.766-780. 257. Dontwi I. K. et al., A study of topological dynamical systems. European Journal of Scientific Research, v.66, n.1 (2011), pp.68-74. 256. M. Effendiev, Y. Yamamoto and A. Yagi, Exponential attractors for non-autonomous dissipative systems. Journal of the Mathematical Society of Japan, Vol.63 (2011), no.5, pp.647-673. 255. M. J. Garrido-Ateinza, A. Ogrowsky and B. Schmalfuss, Random Differential Equations with Random Delays. Stochastics and Dynamics (SD), Vol. 11, no.2-3 (2011), pp.369-388. 254. M. A. Grado-Caffara, A system with two photon states and two polarization-entangled photon models as configuration of minimal coupling to a classical pump field. Journal of Differential Equations, Vol. 122, no.19 (2011), pp.1735-1736. 253. Xiaoying Han, Exponential attractors for lattice dynamical systems in weighted spaces. Discrete and Continuous Dynamical Systems, serie A , vol.31, no.2, 2011, pp.445-467. 252. Meng Hu and Lili Wang, Existence and stability of almost periodic solution for a general neural networks with impulses effects. International Conference on System Science, Engineering Design and Manufacturing Informatization, ICSEM 2011 1, art. no.6081158, pp. 113-117 251. Meng Hu and Lili Wang, Existence and exponential stability of almost periodic solution for Cohen-Grossberg SICNNs with impulses. World Academy of Science, Engineering and Technology, 52 (2011), pp. 941-950. 250. Meng Hu and Lili Wang, Existence and stability of almost periodic solution for impulsive Hopfield-type neural networks with time delays. World Academy of Science, Engineering and Technology, 52 (2011), pp. 951-956. 249. Jin-ping Jiang, Yan-ren Hou and Xiao-xia Wang, Pullback attractor of 2D nonautonomous g-Navier-Stokes equations with linear damped. Applied Mathematics and Mechanics, vol.32, no.2, 2011, pp.151-166. 248. O.V. Kapustyan , P.O. Kasyanov and J. Valero, Pullback attractors for a class of extremal solutions of the 3D Navier - Stokes system. Journal of Mathematical Analysis and Applications, v.373, no.2 (2011), pp.535--547. 247. Kloeden P. E. and M. Rasmussen, Nonautonomous dynamical systems (Surveys and Monographs). American Mathematical Society, 2011, 264 p., Vol.176. 246. P. E. Kloeden, J. Real and Chunyou Sun, Robust exponential attractors for non-autonomous equations with memory. Communications on Pure and Applied Analysis (CPAA), v.10, no.3, 2011, pp.885-915. 245. P. E. Kloeden and H. M. Rodrigues, Dynamics of a class of ODEs more general than almost periodic. Nonlinear Analysis TMA, 74 (2011), pp.2695-2719. 244. P. E. Kloeden and Mehia Yang, Asymptotic behaivior of a nonautonomous free boundary problem with two populations. Revista Matematica Computence, vol.24, no.2, 2011, pp.539-552. 243. Xiaojun Li and Shigui Ruan, Attractors for non-autonomous parabolic problems with singular initial data. Journal of Differential Equations, 251 (2011), 726-757. 242. Li Yongkun and Chao Wang, Uniformly Almost Periodic Functions and Almost Periodic Solutions to to Dynamic Equationson Time Scales. Abstract and Applied Analysis, Volume 2011, ID 341520, 22 pages. doi: 10.1155/2011/341520 241. Li Yongkun and Wang Chao, Almost Periodic Functions on Time Scales and Applications. DISCRETE DYNAMICS IN NATURE AND SOCIETY, 2011 (Article Number: 727068 DOI: 10.1155/2011/727068) 240. Li Yongkun, Zhang Tianwei and Ye Yuan Source, On the existence and stability of a unique almost periodic sequence solution in discrete predator-prey models with time delays. APPLIED MATHEMATICAL MODELLING, Volume: 35 Issue: 11, 2011, Pages: 5448-5459 (DOI: 10.1016/j.apm.2011.04.034) 239. Li Yongkun, Zhang Tianwei and Xing Zhiwei, The existence of nonzero almost periodic solution for Cohen-Grossberg neural networks with continuously distributed delays and impulses. NEUROCOMPUTING, Volume: 73 Issue: 16-18, 2011, Special Issue: SI Pages: 3105-3113 (DOI: 10.1016/j.neucom.2010.06.012) 238. Li Yongkun and Zhang Tianwei, Permanence and almost periodic sequence solution for a discrete delay logistic equation with feedback control. NONLINEAR ANALYSIS: REAL WORLD APPLICATIONS, Volume: 12 Issue: 3, 2011, Pages: 1850-1864 (DOI: 10.1016/j.nonrwa.2010.12.001) 237. Ziping Li and Yongkun Li, Almost periodic sequence solutions of a discrete cooperation system with feedback controls. International Jouurnal of Computational and Mathematical Sciences, 5:4, 2011, pp.189-194. 236. W. Obeng-Denteh, Modelling students' affinity for pure mathematics using differential equations of Kwame Nkrumah University of science and Technology. Continental J. Applied Sciences, 6(2), 2011, pp.34-40. 235. Francesco di Plinio, Gregory S. Duane, and Roger Temam, Time-dependent attractor for oscilation equation. Discrete and Continuous Dynamical Systems (DCDS-A), v.29, no.1, 2011, pp.141--167. 234. C. Potsche, Bifurcations in Non-autonomous Dynamical Systems: Results and tools in discrete time. Proceedings of the Workshop Future Directions in Difference Equations, June 13-17, 2011, Vigo, Spain, pp. 163-212, Colecc. Congr., 69, Univ. Vigo, Serv. Publ., Vigo, 2011. 233. Trinh Tuan Anh and Pham Minh Thong, Extinction of Species in Discrete Models of Lotka-Volterra Type with Infinite Delay. Vietnam Journal of Mathematics, 39 :4(2011) PP.465-483. 232. Vesely M., Construction of almost periodic functions with given properties. Electronic Journal of Differential Equations, 2011 (2011), pp.1-25. 231. Vesely M., Construction of almost periodic sequences and functions and homogeneous linear difference and differential systems. PhD thesis, Brno, 2011, pp.1-120. 230. B. Wunderlich, Phases of Amourphous, Cristalline, and Intermediate Order in Microphase and Nanophase Systems. Amorphious and Nano-Cristalline Materials, Springer, 2011, vol.8, pp.93-114. DOI: 10.1007/978-90-484-2882-2-6. 229. Mechua Yang and P. E. Kloeden, Random attractors for stochastic semi-linear degenerate parabolic equations. Nonlinear Analysis: RWA, Vol.12, no.5, 2011, pp.2811-2821. 228. Andrei Yevik and Huaizhong Zhao, Numerical Approximation to the Stationary Solutions of Stocastic Differential Equations. SIAM J. on Numerical Analysis, 2011, vol.49, no.4, pp.1397-1416. 227. Zhang Tianwei, Li Yongkun and Ye Yuan Source, Persistence and almost periodic solutions for a discrete fishing model with feedback control. COMMUNICATIONS IN NONLINEAR SCIENCE AND NUMERICAL SIMULATION, Volume: 16 Issue: 3, 2011, Pages: 1564-1573 (DOI: 10.1016/j.cnsns.2010.06.033) 226. Zhao Z.-H., Chang Y.-K., N'Guerekata G.M., Pseudo-almost automorphic mild solutions to semilinear integral equations in a Banach space. Nonlinear Analysis, Theory, Methods and Applications, 74 (8),2011, pp. 2887-2894. 2010 225. F. Ammar-Khodja, A. Bader and A. Benabdallah, Dynamic stabilization of systems via decoupling techniques. ESAIM: Control, Optimisation, 2010. 224. Balibrea F., Caraballo T., Kloeden P. E. and Valero J., Recent developments in dynamical systems: three perspectives. International Journal of Bifurcations and Chaos, Vol.20, Issue: 9(2010), pp. 2591-2636. 223. Jung-Chao Ban, Cheng-Hsing Hsu, Tzi-Sheng Yang, Pullback and forward attractors for dissipative cellular neural networks with additive noises. Cellular Nonoscale Networks and Their Applications (CNAA), 2010 12th International Workshop on (3-5 February 2010), pages 1-5, March 2010. 222. Bessaih H., Flandoli F. and Titi E. S., Stochastic attractors for shell phenomenological models of turbulence. J. Stat. Phys., 2010, 140:688--717. 221. Bezruchko A. S., Learning Stability of Differential Equations Solutions as a Means of Increasing Student's Mathematical Culture. Yaroslavl Pedagogical Bulletin, no.2, 2010, pp.32-36. 220. Tomas Caraballo, Jose A. Langa and Felipe Rivero, Gradient-like Nonautonomous Process. International Journal of Bifurcation and Chaos,Vol. 20, No. 9 (2010) pp.2751–2760. 219. Caraballo T., Carvalho A. N., Langa J. A. and Rivero, F. Existence of pullback attractors for pullback asymptotically compact process. Nonlinear Analysis, Vol.72, no.3-4, 2010, pp.1967--1976. 218. Carvalho Alexandro N., Sistemas dinamicos nao-lineares. SMA-5880, Sao Carlos, 2010, 230pp. 217. Guang-Xia Chen, Uniform attractors for the non-autonomous parabolic equation with nonlinear Laplacian proncipal part in unbounded domain.Difference Equations and Applications, Vol.2, no.1 (2010), 105--121. 216. Kasimir Gabert and Bixiang Wang, Non-autonomous attractors for singularly perturbed parabolic equations on $R^n$. Nonlinear Analysis TMA, 73(2010), 3336--3347. 215. Luis Felipe Rivero Garvia, Attractores pullbach: Existencia y estructura para una ecuacion de ondas con amortignamento no autonomo. PhD thesis, November 16, 2010. University of Sevilla, Spain. 214. Jin-ping JIANG and Yan-ren HOU, Pullback attractors of 2D non-autonomous g-Navier-Stokes equations on some bounded domains. Applied Mathematics and Mechanics (English Edition), 31(6), 697-708, 2010. 213. Langa J. A., Miranville A. and Real J., Pullback exponential attractors. Discrete and Continuous Dynamical Systems, v.26, no.4, 2010, pp.1329--1357. 212. Yongkun Li, Tianwei Zhang and Z. Xing, The existence of nonzero almost periodic solution for Cohen - Grossberg neural networks with continuously distributed delays and impulses. Neurocomputing, Volume 73, Issues 16 -18, 2010, pp. 3105 - 3113. 211. Yan Lv and Wei Wang, Limit dynamics for the stochastic FitzHugh - Nagumo system. Nonlinear Analysis, Serie B, 11 (2010), pp.3091--3105. 210. Marin-Rubio P. and Real J., Pullback attractors for 2D-Navier-Stokes equations with delays in continuous and sub-linear operators. . Discrete and Continuous Dynamical Systems, 26(3), 2010, pp.989--1003. 209. Potzsche C., Geometric Theory of Nonautonomous Discrete Dynamical Systems and Discretizations. Lecture Notes in Mathematics, vol. , Springer, 2010, pp. 416. 208. Haitao Song, Pullback attractors of non-autonomous reaction-diffusion equations in $H_0^{1}$. Journal of Differential Equations, 249(2010), 2357--2376. 207. Stamatov G. Tr. and Alzabut J. O., Almost periodic solutions for abstract impulsive differential equations. Nonlinear Analysis, 72(5), 2010, pp.2457--2464. 206. T. Taching Medjo, Pullback attractors for closed cocycles. Nonlinear Analysis: TMA, v.73, no.8, 2010, 2737--2751. 205. Tarasinska A., Pulback attractor for heat convection problem in a micropolar fluid. Nonlinear Analysis: Real World Applications, v.11, no.3, 2010, pp.1458--1471. 204. Bixiang Wang and Robert Jones, Asymptotic behavior of a class of non-autonomous degenerate parabolic equations. Nonlinear Analysis:TMA, v.72, no.9-10, 2010, pp.3887--3902. 203. Zheng Wang and Yongkun Li, Almost Periodic Solutions of a Discrete Mutualism Model with Feedback Controls. Discrete Dynamics in Nature and Society, Vol.2010 (2010), Article ID 28603, 18 pages. doi: 10.1155/2010/286031. 202. Delin Wu, On the dimension of the pullback attractors for g-Navier-Stokes equations. Discrete Dynamics in Nature and Society, Vol.2010 (2010), Article ID 893240, 16 pages. 201. Guo Yuan, Gao Xiaofei and Li Desheng, Structure of the set of bounded solutions for a class of nonautonomous second order differential equations. Commun. Pure Appl. Anal., 9 (2010), no. 6, pp.1607-1616. 200. Rong Yuan, On Favard's theorems. Journal of Differential Equations, vol.249, no.8, 2010, pp.1884--1916. 199. Tianwei Zhang, Yongkun Li and Yuan Ye, Persistence an almost periodic solutions for a discrete fishing model with feedback control. Communications in Nonlinear Science and Numerical Simulation, Vol.16, No.3, pp.1564--1573, 2010. 198. Zhao Z.-H., Chang Y.-K. and Nieto J. J., Almost automorphic and pseudo-almost automorphic mildsolutions to an abstract differential equation in Banach. Nonlinear Analysis: TMA, 72 (3-4), 2010, pp.1886--1894. 197. Zhao Z.-H., Chang Y.-K. and Nieto J. J., Pseudo almost automorphic and weighted pseudo almost automorphic mild solutions to semilinear differential equation in Hilbert spaces. Revista Natematika Computense, DOI 10.1007/s13163-010-0047-2, 2010. 2009 196. Jung-Chao Ban, Cheng-Hsiung Hsu, Yin-Heng Lin and Tzi-Sheng Yang, Pullback and forward attractors for dissipative lattice dynamical systems with additive noises. Dynamical Systems: An International Journal, Vol.24, No.2, 2009 , pp.139 - 155. 195. Brianzoni S., Mammana C. and Michetti E., Nonlinear dynamics in a business-cycle model with logistic population growth. Chaos, Solutions & Fractals, Vol. 40, Issue 2, 2009, pp.717--730. 194. Caraballo T., Carvalho A., Langa J. A. and Rivero F., Existencia y estructura del attractor pullback en una ecuacion de ondas no autonoma. XXI Congreso de Ecuaciones iferenciales y Aplicaciones. XI Congreso de Matematica Applicad. Cuida Real, 21--25 Septembre 2009, p.1--8. 193. Caraballo T., Carvalho A., Langa J. A. and Rivero F., A gradient-like non-autonomous evolution process. Cadernos de Matematica, 10, 161--177 (2009). 192. Caraballo T., Kloeden P. E., Nonautonomous attractors for integro-differential equations. Discrete and Continuous Dynamical Sysytems, v.2, no.1, 2009, pp.17--36. 191. Carvalho A. N. and Langa J. A., An extension of concept of gradient semigroups which is stable under perturbation. JDEs, v.246, no.7, 2009, pp.2646--2668. 190. Carvalho A. N., Langa J. A. and Robinson J. C., Lower semicontinuity of attractors for non-autonomous dynamical systems. Ergodic Theory and Dynamical Systems, 2009, 29, pp.1765--1780. 189. Xiaopeng Chen and Jinqiao Duan, Random Chain Recurrent sets for Random Dynamical Systems. Dynamical Systems: An International Journal, 24(4), 2009, pp.537--546. 188. Feng Chunhua, Almost periodic solutions to some nonlinear delay differential equation. Ann. Differential Equations, 25 (2009), no. 4, 385-390 187. Jacques Demongeot and Jules Waku, Application of interval iteration to the entrainment problem in respiratory physiology. Phil. Trans. R. Soc. A, 2009, 367, pp.4717--4739. 186. Gorni Gianluca and Zampieri Gaentano, Central potential with closed cruise orbits. Journal of Differential Equations, 246 (2009), no.6, pp.2226--2241. 185. Thanh-Trung Han, Switsched Dynamical Systems: Transition Model, Qualitative Theory, and Advanced Control. National University of Singapore, 2009. PhD thesis. 184. Jinping Jiang, Yanren Hou, The global attractor of $g$--Navier--Stokes equations with linear dampness on $ R^2$. Applied Mathematics and Computation, 215 (2009), PP.1068 - 1076. 183. Johnson R. and Munoz-Villarragutb V., Some questions concerning attractors for non-autonomous dynamical systems. Nonlinear Analysis: TMA, 2009, doi:10.1016/j.na.2009.02.088 182. Kapitanski Lev and Zivanovic Sanja, Dinamics with choice. Nonlinearity, 22(2009), 163 - 186. 181. Kloeden P. E. and Pavani R., Dissipative synhronization of nonautonomous and random systems. GAMM-Mitt, v.32, no.1, 2009, pp.80--92. 180. Kloeden P. E., Real J. and Chunyou Sun, Pullback attractors for a semilinear heat equation on time-varying domains. Journal of Differential Equations, v.246, no.5, 2009, pp.4702--4730. 179. D. Li and J. Duan, Structure of the set of bounded solutions for a class of nonautonomous second-order differential equations. Journal of Differential Equations,v.246, no.5, 2009, pp.1754--1773. 178. Y. Li, S. Wang and H. Wu, Pullback attractors for nonautonomous reaction--diffusion equations in Lp. Applied Mathematics and Computation, v.207, no.2, 2009, pp.373--379. 177. Y. Li, J. Wei and J. Sun, The existence of compact exponential attracting set for dynamical systems. International Journal of Pure and Applied Mathematics, v.56, no.4, 2009, pp.509-518. 176. Pedro Marin-Rubio and Jose Real, On the relation between two different concepts of pullback attractors for non-autonomous dynamical systems. Nonlinear Analysis: TMA, 2009, v.71, no.9, pp.3956--3963. 175. Niu C. and Chen Y., Almost periodic sequence solutions of a discrete Lotka--Volterra competitive system with feedback. Nonlinear Analysis: Real World Applications,Vol.10, No.5r, 2009, pp.3152--3161. 174. Potzsche C., Dissipative delay endomorphisms and analytic equivalence. Advance Studies in Pure Mathematics, 2009, v.53, pp.237--259. 173. Youssef N. Raffoul, Exponential analysis of solutions of functional differential equations with unbounded terms. Banach J. Math. Anal., 3 (2009), no.2, pp.28-41. 172. Rasmussen M., Dichotomy spectra and Morse decompositions of linear nonautonomous differential equations. Journal of Differential Equations, v.246, no.6 (2009), pp.2242--2263. 171. Liu Ruihua and Raffoul Youssef, Boundedness and exponential stability of highly nonlinear stochastic differential equations. Electronic Journal of Differential Equations, 2009, no.143, 10 pp. 170. Bixiang Wang, Pullback Attractors for the Non-Autonomous FitzHugh-Nagumo System on Unbounded Domain. Nonlinear Analysis: TMA , v.70, no.11, 2009, pp.3799--3815. 169. Bixiang Wang, Pullback Attractors for Non-Autonomous Reaction--Diffusion Equations on $R^{n}$. Frontiers of Mathematics in China, v.4, no.4, 2009, pp.563--583. 168. Bin Guo Wang and Wan-Tong Li, Attractor minimal sets for nonautonomous type-K competetive and semi-convex delay differential equations with applications. DCDS, series A, vol.24, no.2, 2009, pp.589--611. 167. Yi Wang, Asymptotic symmetry in strongly monotone skew-product semiflows with applications. Nonlinearity, 22 (2009), pp. 765-782. 166. Yejuan Wang and Shengfan Zhou, Kernel sections of multi-valued processes with application to the nonlinear reaction-diffusion equations in unbounded domains. Quartely of Applied Mathematics, v.67, no.2,2009, pp.343-378. 165. Delin Wu, The pullback attractors for the non-autonomous Canassa--Holm equations. Mathematic Problems in Engineering, v.2009, ID 390805, 12p. 164. Liguan Xu and Dayi Xu, P-attracting and P-invariant sets for a class of impulsive stochastic functional differential equations. Computers and Mathematics with Applications, 57 (2009), no.1, 54-61. 163. Xingjie Yan and Chengkui Zhong, On pullback attractor for non-autonomous weakly dissipative wave equations. Dynamical Systems: An International Journal, 24(1), 2009, p.97--108. 162. Shi Yuhua, Notes on the pullback attractors in non-autonomous dynamical systems. Journal of Suzhou University Natural Science Edition, 2009, 25 (2). 161. Caidi Zhao, Shengfan Zhou and Yongsheng Li, Existence and regularity of pullback attractor for an incompressible non-Newtonian fluid with delays. Quartely of Applied Mathematics, 2009, no.3, pp.503--540. 160. Caidi Zhao and Shengtan Zhou, Pullback trajectory attractors for evolution equations and application to 3D incompressible non--Newtonian fluid. Nonlinearity, 2009, no.21, pp.1691--1717. 2008: 159. J. C. Ban, C. H. Hsu and Y. H. Lin, Pullback and forward attractors for dissipative lattice dynamical systems with additive noises. Dynamical Systems: An International Journal, vol.24, no.2, 2008, pp.139--155. 158. A. Berger and S. Siegmund, Uniformly attracting solutions of nonautonomous differential equations. Nonlinear Analysis: TMA, Vol.68, No.12, 2008, pp.3789-3811. 157. S. Brianzoni, C. Mammana, E. Michetti , Global attractor in Solow growth model with differential savings and endogenic labor force growth. AMSE PERIODICALS, MODELLING MEASUREMENT AND CONTROL, SERIES D, 29(2), 2008, pp.19-37. 156. Cai C., Teel A. R. and Goebel R., Smooth Lyapunov Functions for Hybrid Systems Part II: (Pre)Asymptotically Stable Compact Sets. Automatic Control, IEEE Transactions on Automatic Control, 2008, Vol. 53, no. 3, pp.734--748. 155. Caraballo T., Garrido-Atienza M. J., Schmalfuss B. and Valero J., Non-Autonomous and Random Attractors for Delays Semilinear Equations Without Uniqueness. DCDS, v.21, no.2, 2008, pp.415--443. 154. Chepyzhov V. and Vishik M., Attractors for Nonautonomous Navier - Stokes System and Other Partial Differential Equations. Book Series: International Mathematical Series ISSN 1571-5485. Vol. 6, Book: Instability in Models Connected with Fluid Flows. Springer, New York, 2008 ,pp. 135-265. 153. Colonius F., Kloeden P. E. and Rasmussen M., Morse spectrum for nonautonomous differential equations. Stochastics and Dynamics, v.8, no.3 (2008), pp.351--363. 152. Peter Giesl and Rasmussen Martin, Borg's criterion for almost periodic differential equations. Nonlinear Analysis, 69 (2008), pp.3722-3733. 151. P.E. Kloeden, P. Marin-Rubio and J. Real, Pullback attractors for a semilinear heat equation in a non-cylindrical domain. Journal of Differential Equations, v.244, no.8, 2008, pp.2062 - 2090. 150. Desheng Li, Yejuan Wang and Suyun Wang, On the dynamics of nonautonomous general dynamical systems and differential inclusions. Set-Valued Analysis, v.16, no.5--6, 2008, pp.651--671. 149. Yan Lv and Wei Wang, Limiting dynamics for stochastic wave equations. Journal of Dyfferential Equations, 244(2008), pp.1-23. 148. A. Miranville and S. Zelik, Attractors for dissipative partial differential equations in bounded and unbounded domains. Handbook of Evolutionary Equations, Evolutionary Equations (Edts: C.M. Dafermos and M.Pokorny), Vol.4. Amsterdam: North-Holland, 2008, pp.103-200. 147. Oprocha P., Chain recurrence in multidimensional time discrete dynamical systems. DCDS, v.20, no.4, 2008, pp.1039 - 1056. 146. Rasmussen M., Bifurcations of Asymptotically Autonomous Differential Equations. Set-Valued Analysis, v.16, no.7--8 (2008), pp.821--849. 145. Sun C., Cao D. and Duan J., Non-autonomous wave dynamics memory -- asymptotic regularity and uniform attractor. DCDS, series B, v.9, no.3-4 (2008), pp. 743-761. 144. Yonghai Wang, Pullback attractors for nonautonomous wave equations with critical exponents. Nonlinear Analysis: TMA, 68(2008), pp.365-376. 143. Yonghai Wang and Chengkui Zhong, On the existence of pullback attractors for nonautonomous reaction-diffusion equations. Dynamical Systems, Vol.23, no.1, 2008 , pp.1 - 16. 142. Delin Wu, The pullback attractors for the nonautonomous Brinkman--Forchheimer equations. Far East Journal of Dynamical Systems, Vol.10, no.1 (2008), pp.69--80. 141. Caidi Zhao and Shengfan Zhou, Pullback trajectory attractors for evolution equations and application to 3D incompressible non-Newtonian fluid. Nonlinearity, 2008, 21 pp.1691-1717. 140. Xiao--Qiang Zhao and Shengfan Zhao, Kernel sections for processes and non-autonomous lattice systems. Discrete and Continuous Dynamical Systems, Serie B, v.9, no.3--4, 2008, pp.769--785. 139. Zhou S., Zhao C. and Wang Y., Finite dimensionality and upper-semicontinuity of compact kernel sections of nonautonomous lattice systems. Discrete and Continuous Dynamical Systems, v.21, no.4, 2008, pp.1259--1277. 138. Zvyagin V. G. and Vorotnikov D. A., Topological Approximation Methods for Evolutionary Problems of Nonlinear Hydrodynamics. Walter de Gruyter, Berlin New York, 2008. 2007: 137. Bernard Brogliato, Rogelio Lozano and Bennhard Maschke, Dissipative Systems Analysis and Control: Theory and Apllications. 2nd Edition, Springer, Berlin, 2007. 136. Brianzoni S., Mammana C. and Michetti E., Complex dynamics in the neoclassical growth model with differential savings and non-constant labor force growth. Studies in Nonlinear Dynamics and Econometrics, vol.11, No.1., 2007, pp.1-17. 135. T. Caraballo, P. Marin-Rubio and J. Valero, Attractors for Differential Equations with Unbounded Delays. Journal of Differential Equations, 239(2007), pp.311-342. 134. Carvalho Alexandre N., Langa Jose A., Robinson James C. and Suarez Antonio, Characterization of non-autonomous attractors of a perturbed infinite-dimensional gradient system. J. Differential Equations, 236 (2007), no. 2, pp.570--603. 133. Jianwen Chen, Bo-Qing Dong, Zhi-Min Chen, Pullback attractors of non-autonomous micropolar fluid flows. J.math.Anal. Appl., Volume 336, Issue 2, 2007, pp.1384-1394. 132. Langa Jose A., Robinson James C., Suarez Antonio and Vidal-Lopez Alejandro, The stability of attractors for non-autonomous perturbations of gradient-like systems. J. Differential Equations, 234 (2007), no. 2, pp.607 - 625. 131. Li Ting, Pullback attractors for asymptotically upper semicompact non-autonomous multi-valued semiflows. Commun. Pure Appl. Anal. 6 (2007), no. 1, pp.279--285. 130. Li Yongjun and Zhong Chengkui, Pullback attractors for the norm-to-weak continuous process and application to the nonautonomous reaction-diffusion equations. Appl. Math. Comput., 190 (2007), no. 2, 1020--1029. 129. Y. N. Raffoul, Boundedness and Exponential Asymptotic Stability in Dynamical Systems with Applications to Nonlinear Differential Equations with Unbounded Terms. Advances in Dynamical Systems and Applications, v.2, No.1 (2007), pp.107-121. 128. Raffoul Youssef N., Construction of Lyapunov functionals in functional differential equations with applications to exponential stability in Volterra integro-differential equations. Aust. J. Math. Anal. Appl. 4 (2007), no. 2, Art. 9, 13 pp. (electronic). 127. M. Rasmussen, Attractivity and Bifurcation for Nonautonomous Dynamical Systems. Springer, Lecture Notes in Mathematics, Vol.1907, 2007. 123. D. Vorotnikov and V. Zvyagin. Uniform Attractor for Non-autonomous Motion Equation of Viscoelastic Medium. Journal of Mathematical Analysis and Applications, 325 (2007), 438-458. 121. Yonghai Wang, Lingzhi Wang and Wenjing Zhao, Pullback attractors for nonautonomous reaction–diffusion equations in unbounded domains. Journal of Mathematical Analysis and Applications, Volume 336, Issue 1, 2007, Pages 330-347. 120. Caidi Zhao and Shengfan Zhou, Pullback Attractors for a Non-Autonomous Incompreasible Non-Newtonian Fluid. Journal of Differential Equations, 238(2007), pp.394-425. 118. T. Caraballo, P. Kloeden and P. Marin-Rubio. Global and Pullback Attractors of Set-valued Skew Product Flows. Annali di Matematica, 185, pp. 23-45 (2006). 116. T. Caraballo, G.Lukaszewicz and T. Real. Pullback Attractors for Asymptotically Compact Non-autonomous Dynamical Systems. Nonlinear Analysis, 64(2006), pp.484-498. 113. A. N. Carvalho, J. A. Langa., J. C. Robinson and A. Suarez, Characterization of non-autonomous attractors. Cadermos de Matematica, 07 (2006), pp.277--302. 112. Zeraoulia Elhadj, Etude de quelques types de systemes chaotiques: generalization d'un modele issu du modele de Chen. PhD thesis, Algerie, Constantine, 2006. 111. P. Kloeden. Upper Semicontinuous Dependence of Pullback Attractors on Time Scales. J. Difference Equ. Appl., 12 (2006), no. 3-4, pp.357-368. 108. Li Desheng and P. Kloeden. On the Dynamic of Nonautonomous Periodic General Dynamical Systems and Differential Inclusions. Journal of Differential Equations, 224(2006), pp.1-38. 107. C. Potzsche and M. Rasmussen. Taylor Approximation of Integral Manifolds. Journal of Dynamics and Differential Equations, 18 (2006), No.2, pp.427-460. 103. W. Yejuan, Zh. Chenkui and Zh. Shengfang. Pullback Attractors of Nonautonomous Dynamical Systems. DCDS, Vol.16, no.3, 2006, pp.587-614. 102. G. Barnabas and L. Keonhee. Attractors under Discretizations with Variable Stepsite. Discrete and Continuous Dynamical Systems, v. 13, No.3, 2005, pp.827-841. 100. Bongolan-Walsh Vena Pierl, Nonautonomous and Stochastic Dynamicas of Oceanic Gravity Currents. Illinois Institute of Thechnology, 2005, PhD thesis. 99. T. Caraballo, P. Marin-Rubio and J. Valero. Autonomous and Non-Autonomous Attractors of Differential Equations with Delays. Journal of Differential Equations, 208(2005), pp.9-41. 94. M. Efendiev, A. Miranville and S. Zelik. Exponential Attractors and Reduction for Non-Autonomous Dynamical Systems. Proceedings of Royal Society of Edinburgh, Sect A- Mathematical and Physical Sciences, 2005; 135 (4) pp. 703-730. 90. Dele Oluwade, Modeling fractal patterns via the qualitative equivalence of a nonlinear ODE. Nonlinear Analysis, TMA 63 (2005), pp.2409--2414. 87. T. Caraballo, P. Kloeden and J. Real. Pullback and forward attractors for a damped wave equation with delays. Stochastics and Dynamics, Vol.4, No.3 (2004), pp.405-423. 74. A. Berger and S. Siegmund. On the Gap between Random Dynamical Systems and Continuous Skew Products. Journal of Dynamics and Differential Equations, v.15, No.2/3, 2003, pp.237-279. 59. A. Gerko. Introduction to the Theory of Semigroup Dynamical Systems (Semigroup of Transformations) and Dynamical Correspondences. Press of the State University of Moldova, Chisinau, MOLDOVA, 2002. 56. Kalitin B. S., Calitative Theory of Stability of Motions for Dynamical Systems. Minsk, BGU, 2002, 199p. (in Russian) 55. J. A. Langa and A. Suarez. Pullback Permanence of Non-autonomous Partial Differential Equations. Electronic Journal of Differential Equations, vol. 2002 (2002), No.72, pp.1-20. 53. I. Chueshov. Order-preserving Skew-product Flows and Non-autonomous Parabolic Systems. Special issue dedicated to Antonio Avantaggiati on the ocasion of his 70th bithday. Acta Appl. Math. 65 (2001), no.1-3, pp. 185-205. 46. Moschevitin N. G., The problems of recurrence of dynamical systems and Diophant's approximations. Dr. of Sc. thesis, Moscow, 2001 (Speciality: Mathematical logic, algebra and number theory -- 01.01.01; 01.01.06). 44. H. Gao, J. Duan and X. Fu. Almost Periodic Passive Tracer Dispersion. J.Math.Anal.Appl, 247(2000), pp.300-308. 35. J. Duan and P. Kloeden. Dissipative Quasigeostrophic Motion under Temporally Almost Periodic Forcing. J. Math. Anal. Appl., 236 (1999), pp.74-85. 1998: 31. A. Glavan and V. Hancu. On Partial Recurrent Solutions of Completely Integrable Systems. Buletinul AS RM, Matematica, No.1(26), 1998, pp.103-112. 28. Dorogovtsev A. Ya., Stability of periodic solutions of operator equations with perturbation coefficients. Exploring Stochastic Laws: (Eds A. V. Skorohod and Yu. V. Borovskikh, VSP, Vetrecht, 1995, 490 pp, pp.111--119. 26. B. Shcherbakov. Multidimensional Dynamical Systems. Differentsialnye Uravneniya, vol.30 (1994), No.5, pp.739 - 747; translation in Differential Equations 30 (1994), No.5, pp.679 - 686. 25. D. Fakeeh. Analogue of the Levinson - Pliss Theorem for Differential Inclusions. Collection "Functional Methods in the Theory of Differential Equations", Matematicheskie Issledovaniya, 1992, vol. 124, pp.100 - 105. 23. D. Fakeeh. On Structure of Levinson Center of Disperse Dynamical Systems. Izvestiya AN SSRM, 1991, vol.1, pp.62 - 67. 22. I. Dontvi. Weakly Asymptotic Almost Periodic Solutions of Differential Equations. Mat. Issled. No. 112, Geom. Metody v Teorii Differ. Uravn. (1990), pp.83--92. 19. I. Dontvi. Asymptotically Almost Periodic Solutions of Linear Systems of Differential Equations with Generalized Perturbations. Mat. Issled. No. 106, Differ. Uravneniya i Mat. Fizika (1989), pp.72--78. 14. I. Dontvi. Bounded and Almost Periodic Solutions of Linear Systems of Differential Equations with Generalized Perturbations. Investigations in Differential Equations and Mathematical Analysis, 172, "Shtiintsa", Kishinev, 1988, pp.47-54. 1987 11. Fal'ko N. S., On the existence of global Lyapunov-Krasovskii functions for nonautonomous differential equations. Differentila Equations, v.23, n.3, 1987, pp.450-457. 1986: 10. N. Falko. Method of Lyapunov-Krasovsky Functions Depending of m-Variable in the Problem of Poisson's Stability. Mathem. Issled. No. 88, Differential Equations and their Invariants, Chisinau, Stiinta, 1986, pp.122-135. 9. Mitropolskii Yu. A. and Kulik V. L., Application of quadratic forms in the theory of invariant manifolds. Ukrain. Mat. Zh. 37 (1985), no. 3, 306--316 (English translation: Ukrainian Math. J. 37(1985), no. 3, 237--246.) 7. I. Bronstein. Nonautonomous Dynamical Systems. Stiintsa, Chisinau, 1984. 6. I. Aiffa. Solutions Periodiques, Presque-Periodiques et Stable au Sense de Poisson, des Equations Lineaires Integrales de Volterra. These de Magister, Alger, ALGERIE, 1983. 1. K. Palmer. The Structurally Stable Linear Systems on the Half-line are Those with Exponential Dichotomies. Journal of Differential Equations, 33 (1979), pp.16-25. |
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