Curriculum Vitae - Mathematics and Statistics · Curriculum Vitae Name: Igor Belykh Rank: Professor...
Transcript of Curriculum Vitae - Mathematics and Statistics · Curriculum Vitae Name: Igor Belykh Rank: Professor...
Curriculum Vitae
Name: Igor Belykh
Rank: Professor
Department: Mathematics and Statistics
College of Arts and Sciences
Georgia State University, Atlanta, GA, 30303-3083, USA
E-mail: [email protected]
Web: https://math.gsu.edu/ibelykh
I. EDUCATION
Postdoc in Applied and Engineering Mathematics, Laboratory of Nonlinear Systems,
Swiss Federal Institute of Technology (EPFL), 2001-2005.
Postdoctoral adviser: Prof. Martin Hasler
Ph.D. in Applied Mathematics, University of Nizhny Novgorod, Russia, 2000. Ph.D.
advisor: Prof. Leonid Shilnikov
M.S. in Physics and Mathematics, Lobachevsky State University of Nizhny Novgorod,
Russia, 1996.
II. PROFESSIONAL CREDENTIALS
08/06/2017-present
08/06/2011 - 08/05/2017
01/01/2006 –07/31/2011
08/01/2001 –12/31/2005
08/01/1999 – 07/31/2001
07/31/1998- 07/31/1999
06/30/1996-01/30/2000
Professor, Georgia State University, Atlanta
Associate Professor, Georgia State University, Atlanta
Assistant Professor, Georgia State University, Atlanta
Postdoctoral Fellow, Laboratory of Nonlinear Systems, Swiss
Federal Institute of Technology Lausanne (EPFL).
Research Scientist, Department of Differential Equations, Institute
of Applied Mathematics and Cybernetics, N. Novgorod, Russia.
Ph.D. student, Swiss Federal Institute of Technology [One-year
scholarship from the Swiss Government, “Boursier de la
Confédération”].
Ph.D. student in Applied Mathematics, Lobachevsky State University
of Nizhny Novgorod, Russia.
III. PROFESSIONAL DEVELOPMENTS
CURRENT FEDERAL FUNDING
Sole PI: NSF Applied Mathematics, DMS Grant 1616345: “Collective Dynamics
of Mechanical Systems with Applications to Bridge Modeling.” July 1, 2016 -
June 30, 2019. $271,229.
Lead PI: US Army Research Office, Division: Network Science/Control &
Dynamics, $375,000, July 1, 2015- June 30, 2018. Grant W911NF-15-1-0267:
“Dynamics and Control of Switching Complex Networks.” PI: M. Porfiri (New
York University Tandon School of Engineering).
PENDING
Lead PI: US Army Research Office, Division: Network Science/Control &
Dynamics, Proposal: “Panta Rhei: How and why multi-agent systems and
their surrounding environment co-evolve,” $375,000. PI: M. Porfiri (New York
University Tandon School of Engineering).
Co-PI (PI on a subaward): NSF Emerging frontier in Research and Innovation
program (EFRI): Continuum, Compliant, and Configurable Soft Robotics
Engineering, Proposal: “A Nonsmooth Infinite Dimensional Framework for
Compliant/Reconfigurable Robot Dynamics,” Multi-University Proposal, Lead
PI: Maurizio Porfiri (NYU), PIs: Igor Belykh, Dan Negrut (University of
Wisconsin, Madison), Ludovic Righetti (NYU), Massimo Ruzzene (Georgia
Tech). Collaborator: Diana Dalbotten (University of Minnesota). 2,000, 000.
Co-PI (PI on a subaward): NSF Leading Engineering for America's Prosperity,
Health, and Infrastructure Program, Division of Civil, Mechanical, and
Manufacturing Engineering. Proposal: “Understanding and Engineering the
Ecosystem of Firearms: Prevalence, Law, and Firearm-Related Harms,”
Lead PI: Maurizio Porfiri (NYU), PIs: Igor Belykh (GSU) and James Macinko
(Public Health, UCLA). Requested budget: 2,000, 000.
PAST FUNDING
Sole PI: NSF grant, DMS-1009744, Applied Mathematics Program, $206,350,
September 1, 2010- August 31, 2015. Title: DynSyst_Special_Topics: Time-
varying dynamical networks: theory and applications).
Sole PI: HSAP/URAP grant, US Army Research Office, $9,030, Summer 2016
(this grant is similar to NSF REU and funds high school students and undergrads).
PI: NSF Control and Systems Diagnostics Program, Conference Grant: “2016
IEEE Workshop on Complex Systems and Networks,” GSU, November 14-15,
2016. $5,000. This conference was also supported under a GSU Conference
Grant from the Office of the Vice President for Research (grant amount: $3,000,
PI: Igor Belykh), by City University of Hong Kong ($5,000), Georgia Tech
($3,000), and GSU (additional $5,000).
Sole PI: REU Supplement to the existing NSF grant, $12,500 (separate award).
Sole PI: GSU Brains and Behavior Program, $30,000, 2014-2015.
Title: Abnormal synchrony in evolving brain networks.
Co-PI: Conference grant for organizing the 2013 IEEE Workshop on Complex
Systems and Networks, Vancouver, Canada, December 11-13, 2013. [$12,480
received from the IEEE Circuits and Systems Society] .
Co-PI: Conference grant for organizing the 9th International Workshop on
Complex Systems and Networks, Institute for Mathematics and its Applications
(IMA) at the University of Minnesota, September 5-7, 2012. Support from the
IMA and IEEE Circuits and Systems Society. Support for 45 participants (IMA
facilities, lodging, and travel: $1,000/participant).
PI: Mentor Grant, Georgia State University Research Foundation, $ 11,000,
2009-2010; with Leonid Bunimovich (Georgia Tech) as Mentor.
Co-PI, GSU Brains and Behavior Program: $28,000, 2009-2010. Title:
Dynamical principles of multifunctional central pattern generators. PI: A.
Shilnikov.
Co-PI, GSU Brains and Behavior Program : $11,000, 2009-2010. Title: Modeling
and dynamical analysis of isolated cardiac cells and cells connected into
multicellular tissues ; PI: V. Bondarenko.
Invited Professor Grant, Swiss Federal Institute of Technology Lausanne, June
2009, Amount: $ 6,000.
PI, GSU Brains and Behavior Program: $21,000, 2007-2008. Title:
Synchronization in networks of bursting neurons.
PI, Grant from the International Cariplo Foundation, Como, Italy, 2007. $8,840.
Title: Pattern formation in ecological networks.
PI, GSU Research Foundation: $10,000, 2007-2008. Title: Pattern formation in
neuronal networks.
AWARDS AND FELLOWSHIPS
Outstanding Research Award, Department of Mathematics and Statistics, GSU,
2016.
Outstanding Research Award, Department of Mathematics and Statistics, GSU,
2014.
2012-2013 Best Associate Editor Award, IEEE Circuits and Systems Society. “In
recognition of outstanding performance as Associate Editor of the IEEE
Transactions on Circuits and Systems,” a flagship publication of the IEEE
Circuits and Systems Society.
Landau network-Centro Volta Fellowship for invited professors, Politecnico di
Milano, Milan, Italy, 2006-2007.
One-year scholarship from the Swiss Government, “Boursier de la Confédération,
1998-1999.
George Soros Fellowship for graduate students from Int. Science Foundation,
1995-1996, 1996-1997; 1997-1998.
EDITORIAL BOARDS
SIAM Journal on Applied Dynamical Systems.
IEEE Transactions on Circuits and Systems I: Regular Papers.
Int. Journal of Bifurcation and Chaos.
IEEE Transactions on Circuits and Systems II: Express Briefs,(two terms served:
2008-2009, 2010-2011).
Int. Journal “Dynamics of Continuous, Discrete & Impulsive Systems. Series B:
Applications and Algorithms.”
IEICE journal “Nonlinear Theory and Applications.”
GRANT REVIEWER
Research Foundation – Flanders (Belgium), 2016.
NSF panelist, DMS, Applied Mathematics, 2011, 2012, 2013, 2017.
US Army Research Office (since 2011).
MEMBERSHIP
Associate member of the Centre for Chaos Control and Synchronization, City
University of Hong Kong
Associate member of the INPSC Multidisciplinary Institute for Complex Systems,
Normandy, France.
Associate member of the Center for Nonlinear Science, Georgia Institute of
Technology.
CONFERENCE COMMITTEE MEMBERSHIP
International Program Committee, 8th International Conference on Physics and
Control (PhysCon-2017), Florence, Italy, July 17-19, 2017.
International Advisory Committee member, 6th International Conference on
Nonlinear Science and Complexity (NSC-2016), San Jose dos Campos, Brazil,
May 16-20, 2016.
International Program Committee member, 4th IFAC Conference on Analysis and
Control of Chaotic Systems (Chaos-2015), Tokyo, Japan, August 26-28, 2015.
International Program Committee member, 6th International Scientific Conference
on Physics and Control, San Luis Potosi, Mexico (PHYSCON-2013), August 26-
29, 2013.
ORGANIZATION LEADERSHIP
Chair and main organizer of the 2016 IEEE Workshop on Complex Systems and
Networks,” GSU, November 14-15, 2016.
Managing Editor and co-organizer of a Focus Issue on Collective Dynamics of
Mechanical Oscillators and Beyond, Int. Journal Chaos (together with M. Porfiri,
NYU), November issue, 2016.
Co-organizer of the 2015 Annual Meeting for the Society for Mathematical
Biology, GSU, Atlanta, June 29-July 3rd, with over 450 people attending from 26
countries (organized together with Yi Jiang and Andrey Shilnikov (GSU),
Eberhard Voit and Howie Weiss (Georgia Tech), Ilya Nemenman (Emory
University), Meghan Burke (Kennesaw State), Ying Xu (UGA) and Arni
Srinivasa (Georgia Regents)).
Co-Editor of a Special Issue on Bio-Dynamics, Int. Journal of Bifurcation and
Chaos, June issue, 2015.
Co-organizer of the two-part minisymposium “Network synchronization of
mechanical systems and beyond,” 2015 SIAM Conference on Applications of
Dynamical Systems, Snowbird, USA, May 17-21, 2015.
Managing Editor and co-organizer of a Special Issue on Evolving Dynamical
Networks, Physica D (together with Mario di Bernardo (University of Bristol)
,Juergen Kurths (Humboldt University) and Maurizio Porfiri (NYU)), 2014.
Co-organizer of the 2013 IEEE Workshop on Complex Systems and Networks,
Vancouver, Canada, December 11-13, 2013.
Co-organizer of the minisymposium “Dynamics of evolving , switching, and
blinking networks,” 2013 SIAM Conference on Applications of Dynamical
Systems, Snowbird, USA, May 18-23, 2013.
Co-organizer of the 2012 International IEEE Workshop on Complex Systems and
Networks, Institute for Mathematics and its Applications (IMA) at University of
Minnesota, September 5-7, 2012.
Co-organizer of the two-part minisymposium “Evolving dynamical networks,”
2015 SIAM Conference on Applications of Dynamical Systems, Snowbird, USA,
May 17-21, 2015.
Co-organizer of the 3rd Computational Neuroscience Workshop “Dynamics of
Bursting Activity of Neurons,” Atlanta, April 16-17, 2010.
Co-organizer of the minisymposium “Dynamics of time-varying networks,” 2009
SIAM Conference on Applications of Dynamical Systems, Snowbird, USA, May
17-21, 2009.
Co-organizer of the Atlanta Computational Neuroscience Workshop, April 7-8,
2008.
Co-organizer of the Applied Dynamical Systems and Math. Neuroscience
seminar, the Department of Mathematics and Statistics, GSU.
Co-organizer of the minisymposium “Structure and Dynamics of Complex
Networks” 2007 SIAM Conference on Applications of Dynamical
Systems, Snowbird, USA, May 28-June 1, 2007.
Co-organizer of the Int. Workshop “Origin and Regulation of Bursting Activity in
Neurons”, Atlanta, USA, 2006.
Co-organizer of the Int. Workshop “Nonlinear Dynamics Everywhere”, Swiss
Federal Institute of Technology, Lausanne, Switzerland, October 25-26, 2005.
Co-organizer of the minisymposium "Synchrony in Neural Networks," SIAM
conference on the Life Sciences, Portland, OR, 2004.
PUBLICATIONS
To date I have at least 2,600 citations to my work by other researchers in the field,
h-index: 20 (citations from my Google Scholar account).
Refereed papers and book chapters (* indicates students directed):
Under review:
[52] M. Porfiri, R. Jeter*, and I. Belykh, “Windows of opportunity for the stability of
jump linear systems: almost sure versus moment convergence,” IEEE Transactions on
Automatic Control.
[51] I. Belykh, D. Carter*, and R. Jeter*, “Synchronization in multilayer networks:
when good links go bad,” Physical Review X.
Published:
[50] R. Jeter*, M. Porfiri, and I. Belykh, “Network synchronization through stochastic
broadcasting,” IEEE Control Systems Letters, V. 2, No 1, pp. 103-108 (2018).
[49] I. Belykh, R. Jeter*, and V. Belykh, “Foot force models of crowd dynamics on a
wobbly bridge,” Science Advances, V. 3, No 11, e1701512 (2017). Media coverage: New
York Times, Popular Science, Physics World, New Scientist, Science News, Russia
News Today, Welt der Physik (in German).
[48] M. Porfiri and I. Belykh, “Memory matters in synchronization of stochastically
coupled maps,” SIAM Journal on Applied Dynamical Systems, V. 16, No. 3, pp. 1372-
1396 (2017).
[47] R. Reimbayev*, K. Daley*, and I. Belykh, “When two wrongs make a right:
synchronized neuronal bursting from combined electrical and inhibitory coupling,”
Philosophical Transactions of the Royal Society A, V. 375, 20160282 (2017).
[46] R. Reimbayev*, K. Zhao*, and I. Belykh , “When repulsive inhibition promotes
synchrony of bursting neurons: Help from the enemy ,” Book chapter in “Challenges in
Complexity: Dynamics, Patterns, and Cognition,” Nonlinear Systems and Complexity
Series, Springer, 2017.
[45] O. Golovneva*, R. Jeter*, I. Belykh, and M. Porfiri, “Windows of opportunity for
synchronization in coupled stochastic maps,” Physica D, V. 340, pp. 1-13 (2017).
[44] I. Belykh and M. Porfiri, “Introduction: Collective dynamics of mechanical
oscillators and beyond,” Chaos, V. 26, 116101 (2016).
[43] I. Belykh, R. Jeter*, and V. Belykh, “Bistable gaits and wobbling induced by
pedestrian-bridge interactions,” Chaos, V. 26, 116314 (2016).
[42] I. Belykh, B. Brister*, and V. Belykh, “Bistability of patterns of synchrony in
Kuramoto oscillators with inertia,” Chaos, V. 26, 094822 (2016) (invited paper for a
Focus Issue on Pattern Synchronization).
[41] R. Jeter* and I. Belykh, “Synchronization of metapopulations with sporadic
dispersal,” Int. Journal of Bifurcation and Chaos, Vol. 25, No 7, 1540002 (2015).
[40] R. Jeter* and I. Belykh, “Synchronization in on-off stochastic networks: windows
of opportunity,” IEEE Transactions on Circuits and Systems I: Regular Papers, V. 62,
No 5, pp. 1260-1269 (2015).
[39] I. Belykh, R. Reimbayev*, and K. Zhao*, “Synergistic effect of repulsive inhibition
in synchronization of excitatory networks ,” Physical Review E, V. 91, 062919 (2015).
[38] I. Belykh and M. Hasler, “Patterns of synchrony in neuronal networks: the role of
synaptic inputs,” Book chapter in "Nonlinear Dynamics: New Directions", Eds. H.
Gonzalez-Aguilar and E. Ugalde, Nonlinear Systems and Complexity Series, V. 12,
Springer, pp. 1-28 (2015) (ISBN 978-3-319-09863-0).
[37] R. Jeter* and I. Belykh, “Dynamical networks with on-off stochastic connections:
beyond fast switching,” Proceedings of 2014 IEEE International Symposium on Circuits
and Systems, Melbourne, Australia, p. 1-4 (2014) (referred proceeding paper).
[36] R. Reimbayev* and I. Belykh, “When transitions between bursting modes induce
synchrony,” Int. Journal of Bifurcation and Chaos, Vol. 24, N. 8, 1440013 (9 pages)
(2014).
[35] I. Belykh, M. di Bernardo, J. Kurths, and M. Porfiri, “Evolving dynamical
networks,” Physica D, V. 267, pp. 1-6 (2014).
[34] I. Belykh, V. Belykh, R. Jeter*, and M. Hasler, “Multistable randomly switching
oscillators: the odds of meeting a ghost,” European Physical Journal Special Topics, V.
222, pp. 2497-2507 (2013).
[33] M. Hasler, V. Belykh, and I. Belykh, “Dynamics of stochastically blinking systems.
Part I: Finite time properties,” SIAM Journal on Applied Dynamical Systems, Vol. 12,
No. 2, pp. 1007–1030 (2013).
[32] M. Hasler, V. Belykh, and I. Belykh, “Dynamics of stochastically blinking systems.
Part II: Asymptotic properties,” SIAM Journal on Applied Dynamical Systems, Vol. 12,
No. 2, pp. 1031–1084 (2013).
[31] S. Jalil*, I. Belykh, and A. Shilnikov, “Spikes matter for phase-locked bursting in
inhibitory neurons,” Physical Review E, Vol. 85, 036214 (2012).
[30] I. Belykh and M. Hasler, “Dynamics of networks with stochastically switched
connections,” Proceedings of the ASME 2011 Dynamic Systems and Control Conference,
October 31 - November 2, 2011, Arlington, VA, USA, pages 1-7 (referred proceeding
paper).
[29] I. Belykh and M. Hasler, “Mesoscale and clusters of synchrony in networks of
bursting neurons,” Chaos, V. 21, 016106 (2011) (invited paper for a Focus issue
“Mesoscales in Complex Networks”).
[28] S. Jalil*, I. Belykh, and A. Shilnikov, “Fast reciprocal inhibition can synchronize
bursting neurons,” Physical Review E, V.81, 045201 (2010) .
[27] I. Belykh, S. Jalil*, and A. Shilnikov, “Burst-duration mechanism of in-phase
bursting in inhibitory networks,” Regular & Chaotic Dynamics, Vol. 15, no. 2-3, pp.
148-160 (2010).
[26] V. Belykh, I. Belykh, “Belykh map,” Scholarpedia, V. 6(10): 5545 (2009).
[25] I. Belykh, C. Piccardi, and S. Rinaldi, “Synchrony in tritrophic food chain
metacommunities,” Journal of Biological Dynamics, V. 3, no. 5, pp. 497 – 514 (2009).
[24] I. Belykh and A. Shilnikov, “When weak inhibition synchronizes strongly
desynchronizing networks of bursting neurons,” Physical Review Letters, V. 101, 078102
(2008) .
[23] A. Shilnikov, R. Gordon*, and I. Belykh, “Polyrhythmic synchronization in bursting
networking motifs,” Chaos, V. 18, 037120 (2008).
[22] I. Belykh, M. Hasler, and V. Belykh, “When symmetrization guarantees
synchronization in directed networks,” Int. Journal of Bifurcation and Chaos, V. 17,
no. 10, pp. 1-9 (2007).
[21] I. Belykh, V. Belykh, and M. Hasler, “Generalized connection graph method for
synchronization in asymmetrical networks,” Physica D, V. 224, pp. 42–51 (2006) (invited
paper for a Special issue “Dynamics on Complex Networks”).
[20] I. Belykh, V. Belykh, and M. Hasler, "Synchronization in asymmetrically coupled
networks with node balance," Chaos, V. 16, 015102 1-9 (2006) (invited paper for a
Focus issue “Stability and Pattern Formation in Dynamics on Networks”).
[19] I. Belykh, E. de Lange*, and M. Hasler, “Synchronization of bursting neurons:
what matters in the network topology,” Physical Review Letters, V. 94, 188101 (2005).
[18] M. Hasler and I. Belykh, “Blinking long-range connections increase the
functionality of locally connected networks,” IEICE Transactions on Fundamentals
(Oxford University Press), V. E88-A, N 10, pp. 2647-2655 (2005).
[17] I. Belykh, M. Hasler, M. Lauret*, and H. Nijmeijer, “Synchronization and graph
topology,” Int. Journal of Bifurcation and Chaos, Vol. 15, No 11, pp. 3423–3433
(2005) (invited tutorial).
[16] V. Belykh, I. Belykh, and E. Mosekilde, “The hyperbolic Plykin attractor can exist
in neuron models,” Int. Journal of Bifurcation and Chaos, Vol. 15, No 11, pp. 3567–
3578 (2005).
[15] I. Belykh, V. Belykh, and M. Hasler, “Blinking model and synchronization in
small-world networks with a time-varying coupling,” Physica D, V. 195/1-2, pp 188-206
(2004). (Top 10 cited Physica D paper, published in the previous five year period).
[14] V. Belykh, I. Belykh, and M. Hasler, “Connection graph stability method for
synchronized coupled chaotic systems,” Physica D, V. 195/1-2, pp. 159-187 (2004).
(The most cited paper of Physica D, published in the previous five year period).
[13] I. Belykh, V. Belykh, K. Nevidin, and M. Hasler, “Persistent clusters in lattices of
coupled nonidentical chaotic systems,” Chaos , V. 13, pp. 165-178 (2003).
[12] V. Belykh, I. Belykh, and M. Hasler, “Small-world networks: dynamical models
and synchronization,” Journal of Applied Nonlinear Dynamics, V. 11, N 3, pp 67-76
(2003).
[11] V. Belykh, I. Belykh, M. Hasler, and K. Nevidin, “Cluster synchronization in
three-dimensional lattices of diffusively coupled oscillators,” Int. Journal of Bifurcation
and Chaos, 2003, V.13, pp. 755-779 (2003).
[10] V. Belykh, I. Belykh, and K. Nevidin, “Spatiotemporal synchronization in lattices
of locally coupled oscillators,” Int. Journal Mathematics and Computers in Simulation
(NH Elsevier Publishing), Vol. 58, pp. 477-492 (2002).
[9] V. Belykh, I. Belykh, and E. Mosekilde, “Cluster synchronization modes in an
ensemble of coupled chaotic oscillators,” Physical Review E, Vol. 63, 036216 (2001).
[8] V. Belykh, I. Belykh, N. Komrakov, and E. Mosekilde, “Invariant manifolds and
cluster synchronization in a family of locally coupled map lattices,” Discrete Dynamics
in Nature and Society (Gordon and Breach Publishing, New York), V. 4, pp. 245-256
(2000).
[7] I. Belykh, V. Belykh, and M. Hasler, “Hierarchy and stability of partially
synchronous oscillations of diffusively coupled dynamical systems,” Physical Review E,
V. 62, N 5, pp. 6332-6345 (2000).
[6] V. Belykh, I. Belykh, E. Mosekilde, and M. Colding-Joergensen, “Homoclinic
bifurcations leading to bursting oscillations in cell models,” European Physical
Journal E, V. 3, N 3, pp. 205-219 (2000).
[5] V. Belykh, I.Belykh, and N. Verichev, “Global chaotic synchronization in coupled
Josephson junctions,” Radiophysics Quantum Electronics (Kluwer Academic
Publishing), V. 41, N 7, pp. 912-924 (1997).
[4] I. Belykh, “Neuron bifurcations and a way to model electrically coupled neurons by
using coupled mappings,” Radiophysics Quantum Electronics (Kluwer Academic
Publishing), V. 41, N. 12, pp. 1066-1071 (1998).
[3] I Belykh and N.N. Verichev, “Strange attractors and synchronization in coupled
oscillator-pendulum systems,” Bulletin of N. Novgorod University: Nonlinear Dynamics
and Chaos, V. 2, pp. 36-48 (1997).
[2] I. Belykh, “From chaos to synchronization in a coupled system of Josephson
junctions,” Bulletin of N. Novgorod University: Nonlinear Dynamics and Chaos (Edited
by M.I. Rabinovich), V. 1, pp. 159-164 (1996).
[1] I. Belykh, “Synchronization of diffusively coupled nonautonomous chaotic
pendulums,” Radiophysics Quantum Electronics (Kluwer Academic Publishing), V. 37,
N 1-2, pp. 69-73 (1995).
Conference Proceedings (prior to 2011):
[20] M. Hasler, I. Belykh, and V. Belykh, “Classes of stochastically switched (blinking)
systems,”' Proceedings of the 2007 International Symposium on Circuits and Systems
(ISCAS-2007) , New Orleans, IEEE Press, pp. 1665-1668, 2007.
[19] I. Belykh, V. Belykh, M. Hasler, “Synchronization Stability in Oscillator Networks:
Solution for Asymmetrical Configurations,” Proceedings of the 3rd IFAC conference
“Periodic Control Systems,” St. Petersburg, Russia, International Federation of
Automatic Control Press, pp. 1-6, 2007.
[18] I. Belykh, M. Hasler, and V. Belykh , “Graph-based criteria for synchronization of
diffusively coupled oscillators,” Proceedings of the Int. Symposium on Nonlinear Theory
and its Applications (NOLTA-2006), Bologna, Italy, pp. 567-570, 2006.
[17] I. Belykh, E. de Lange, and M. Hasler, “Synchronization in pulse-coupled networks
of bursting neurons,” Proceedings of the Int. Symposium on Nonlinear Theory and its
Applications (NOLTA-2005), Bruges, Belgium, pp. 699-702, 2005.
[16] I. Belykh, V. Belykh, and M. Hasler ”Synchronization in complex networks with
blinking interactions,” Proceedings of the Int. Conference "Physics and Control 2005",
Saint Petersburg, Russia, 2005, CD: 1-4.
[15] M. Hasler and I. Belykh, “Blinking connections enhance locally coupled networks,”
Proceedings of the 2004 Int. Symposium on Nonlinear Theory and Applications
(NOLTA-2004), Japan, 2004, CD: pp. 1-4.
[14] I. Belykh, V. Belykh, and M. Hasler, “Blinking model and small-world networks
with a time-varying coupling,” Proceedings of the IEEE Int. Conference on Nonlinear
Dynamics of Electronic Systems (NDES'2003), Scuol, Switzerland, pp. 29-32, 2003.
[13] E. de Lange and I. Belykh, “Phase locking and coincidence detection in threshold
coupled neural oscillators,” Proceedings of the IEEE Int. Conference on Nonlinear
Dynamics of Electronic Systems (NDES'2003), Scuol, Switzerland, pp. 65-68, 2003.
[12] I. Belykh, V. Belykh, K. Nevidin, and M. Hasler, “Cluster synchronization in
lattices of diffusively coupled dynamical systems,” Proceedings of the Int. Conference
"Progress in Nonlinear Science" dedicated to the 100th Anniversary of A.A.Andronov,
N. Novgorod, Russia, V.3, pp. 139-143, 2001.
[11] I. Belykh, V. Belykh, K. Nevidin, and M. Hasler, “Spatiotemporal synchronization
in three-dimensional lattices of coupled chaotic systems,” Proceedings of the 2001 Int.
Symposium on Nonlinear Theory and its Applications (NOLTA-2001), pp. 87-90, Japan,
2001.
[10] I. Belykh, V. Belykh, K. Nevidin, and M. Hasler, “Partial synchronization in two-
dimensional lattices of coupled nonlinear systems,” Proceedings of the IEEE Conference
on Nonlinear Dynamics of Electronic Systems (NDES'2001), (Delft University
Press), pp. 197-200, Delft, 2001.
[9] I.V. Belykh and V.N. Belykh, “On partial synchronization of coupled continuous and
discrete time dynamical systems,” Proceedings of the 2000 IEEE Int. Symposium on
Circuits and Systems (ISCAS-2000), Vol. 3, pp. 483-486, Geneva, 2000.
[8] I.V. Belykh, “Embedded invariant manifolds and ordering of chaotic synchronization
of diffusevely coupled systems,” Proceedings of the Int. Conference COC-2000, V. 2, pp.
346-350, St.-Petersburg, 2000.
[7] I.V. Belykh and V.N. Belykh, “Full and partial chaotic synchronization of an array of
diffusively coupled dynamical systems,” Proceedings of the Int. Conference NDES-2000,
edited by G. Setti, R. Rovatti, and G. Mazzini (World Scientific Publishing), p. 223-237,
Catania, 2000.
[6] I.V. Belykh, “Neuron model bifurcations leading to bursting oscillations,"
Proceedings of the Int. Conference NOLTA-98 (Presses Polytechnique et Universitaires
Romandes), V. 3, pp. 1177-1181, Crans-Montana, Switzerland, 1998.
[5] I.V. Belykh, V.N. Belykh, and E. Moseklde, “Bifurcations leading to bursting
oscillations in cell models,” Int. Conference “Pattern Formation and Chaos,” Saratov
University Press, 1998.
[4] I.V. Belykh, and N.N. Verichev, “Global synchronization and strange attractors in
coupled superconducting junctions,” Proceedings of the Int. Conference NDES-97
(Nonlinear Dynamics of Electronic Systems), pp. 145-149, Moscow, 1997.
[3] V.N. Belykh and I.V. Belykh, “Nonlocal Techniques for Chaotic Behavior and
Synchronization of Dynamical Systems,” Int. Conference “Nonlinear Dynamics and
Chaos. Applications in Physics, Biology and Medicine (ICND-96),” Saratov University
Press, 1996.
[2] I.V. Belykh and N.N. Verichev, “Strange attractors in systems of coupled
superconducting junctions,” Int. Conference "Contemporary Problems in Theory of
Dynamical Systems", Nizhny Novgorod University Press, 1996.
[1] I.V. Belykh, “Synchronization in an 1-D chain of diffusively coupled non-
autonomous chaotic pendulums,” Int. Conference "Wave phenomena and oscillations",
Nizhny Novgorod-Moscow, 1994.
PRESENTATIONS AT PROFESSIONAL MEETINGS (SINCE 2011)
1. 4th Int. Conference “Dynamics, Bifurcations, and Strange Attractors,” N.
Novgorod, Russia, July 2-9, 2017. Invited speaker, talk: “Complex dynamics of
pedestrian-bridge interactions .”
2. 2017 SIAM Conference on Applications of Dynamical Systems, Snowbird, USA,
May 21-25, 2017. Minisymposium co-organizer, invited talk: “Bistable gaits
and wobbling induced by pedestrian-bridge interactions.”
3.
4. 12th IFAC International Workshop on Adaptation and Learning in Control and
Signal Processing (in conjunction with the 6th IFAC International Workshop on
Periodic Control Systems), Eindhoven, The Netherlands, June 29-July 1, 2016.
Plenary speaker, talk: “Cooperative dynamics in brain networks and their
control.”
5. 2016 IEEE Int. Workshop on Complex Systems and Networks, Atlanta,
November 14-15, 2016. Main organizer, Invited speaker, talk: “Foot force
models of crowd dynamics on a wobbly bridge.”
6. 3rd Int. Conference “Dynamics, Bifurcations, and Strange Attractors,” N.
Novgorod, Russia, July 20-24, 2016. Invited speaker, talk: “Bifurcations and
crowd dynamics on a wobbly bridge.”
7. MBI workshop “The interplay of stochastic and deterministic dynamics in
networks” (Organizers: James Keener, Lai-Sang Young, and Ruth Williams),
Emphasis Semester on Dynamics of Biologically Inspired Networks,
Mathematical Biosciences Institute (MBI), Ohio State University, Columbus,
February 22-26, 2016. Invited speaker, talk: “Dynamics of stochastically
switching networks: windows of opportunity.”
8. International Workshop “Brain Modes,” Georgia State University, December 8th,
2015. Invited speaker, talk: “Neuronal dynamics from a complex network
perspective.”
9. 2015 Annual Meeting for the Society for Mathematical Biology, Atlanta, June 30-
July 2, 2015. Co-organizer, Invited speaker, talk: “When transition between
bursting modes induce synchrony.”
10. 2nd Int. Conference “Dynamics, Bifurcations, and Strange Attractors,” N.
Novgorod, Russia, July 20-24, 2015. Invited speaker.
11. 2015 SIAM Conference on Applications of Dynamical Systems, Snowbird, USA,
May 17-21, 2015. Minisymposium co-organizer, invited talk: “When wind-
induced synchrony causes the instability of a bridge: When Millennium Meets
Tacoma.”
12. International Workshop “Advances in Discrete Networks,” Department of
Mathematics, University of Pittsburgh, December 12-14, 2014. Invited speaker,
talk “Repulsive inhibition promotes synchrony in excitatory bursting networks:
help from the enemy.”
13. IEEE International Symposium on Circuits and Systems (ISCAS-2014),
Melbourne, Australia, June 1-5, 2014. Invited speaker, talk: “Dynamical
networks with on-off stochastic connections: beyond fast switching.”
14. 2014 Georgia Scientific Computing Symposium, Kennesaw State University, GA,
February 22, 2014. Invited speaker, talk “Synchrony in neuronal networks: a
synergetic effect of excitation and inhibition.”
15. XXXIII Int. Conference “Dynamics Days,” Georgia Institute of Technology,
Atlanta, January 2-5, 2014. Contributed talk: “Multistable randomly switching
dynamical networks: the odds of meeting a ghost.”
16. 2013 IEEE International Workshop on Complex Systems and Networks, Simon
Fraser University, Vancouver, Canada, December 11-13, 2013. Co-organizer
and invited speaker, talk “Dynamical networks with on-off stochastic
connections.”
17. 2013 SIAM Conference on Applications of Dynamical Systems, Snowbird, USA,
May 19-23, 2013 (Minisymposium "Dynamics of evolving, switching, and
blinking networks” (Co-organizer (together with Erik Bollt), invited talk:
“Multistable dynamics of stochastically switching networks.”
18. International Conference “Dynamics, Bifurcations, and Strange Attractors,”
dedicated to the memory of L.P. Shilnikov, Nizhny Novgorod, Russia, July 1-5,
2013. Invited speaker, talk: “Ghost attractors in randomly switched dynamical
systems.”
19. 9th International Workshop on Complex Systems and Networks, Institute for
Mathematics and its Applications (IMA) at University of Minnesota, September
5-7, 2012. Co-organizer and invited speaker, talk: “What matters for neuronal
synchronization.”
20. SIAM Conference on the Life Sciences, San Diego, USA, August 7-10, 2012.
Invited speaker, talk: “When Transitions Between Bursting Modes Induce
Network Synchrony.”
21. Carolina Dynamics Systems Conference, Clemson University, April 14th, 2012.
Invited speaker, talk: “Stochastically switched dynamical systems: the odds of
meeting a ghost.”
22. 7th Crimean School and Workshop on Emergent Dynamics of Oscillatory
Networks, Mellas, Crimea, Ukraine, May 20-27 2012. Invited speaker, talk:
“Mixed couplings and network synchronization: when friends turn enemies.”
23. “Network Frontier Workshop,” Northwestern University, Evanston, IL, December
1-12, 2011. Invited speaker, talk: "Synchronization in networks with mixed
graphs".
24. ASME 2011 Dynamic Systems and Control Conference, Arlington, VA, October
31 - November 2, 2011. Invited speaker, talk: “Dynamics of networks with
stochastically switched connections.”
25. 2011 SIAM Conference on Applications of Dynamical Systems, Snowbird, USA,
May 22-26, 2011 . (Minisymposium "Evolving dynamical networks” (Co-
organizer (together with Juergen Kurths, Mario di Bernardo, and Maurizio
Porfiri), invited talk : “Asymptotic Behavior of Stochastically Blinking
Systems.”
26. 2011 SIAM Conference on Applications of Dynamical Systems, Snowbird, USA,
May 22-26, 2011. Invited speaker: “Synchronization in networks with
disconnected components.”
COLLOQUIA AND SEMINAR PRESENTATIONS (SINCE 2011):
1. School of Mathematics, Georgia Institute of Technology, November 20th,
2017. Colloquium Talk: “Bistable gaits and wobbling induced by pedestrian-
bridge interactions.”
2. Dynamics and Control Seminar Series, Department of Engineering
Mathematics, University of Bristol, Bristol, UK, December 7th, 2016.
3. Colloquium, Department of Mathematics and Applied Mathematics, Virginia
Commonwealth University, Richmond, November 2rd, 2016.
4. A Campus-wide public lecture “Our brains from a complex network
perspective,” Georgia Southern University, October 21, 2016 (grant from the
Campus Life Enrichment Committee at Georgia Southern University).
5. The Georgia Tech School of Applied Physiology Seminar, January 27, 2016.
Talk: “Foot force models of walker synchrony on a lively bridge.”
6. Department of Mathematics and Statistics Retreat, Georgia State University,
April 23, 2016. Talk: “A Mathematician on a Wobbly Bridge.”
7. Mechanical and Aerospace Engineering Department Seminar Series, New
York University Tandom School of Engineering, August 8th, 2015. Talk:
“Dynamics of randomly switched dynamical networks: windows of
opportunity.”
8. Department of Mathematics, University of Pittsburgh, December 8-11, 2014.
Graduate level mini-course (four lectures): “Static and evolving dynamical
networks: an interplay between the dynamics and graph topology” as part of
the 2014 Fall Theme Semester on Discrete Networks: Geometry, Dynamics,
and Applications (travel and local accommodation covered).
9. Department of Mathematics, Ohio University, March 17, 2014. Colloquium
talk: “When repulsive inhibition induces synchrony in excitatory networks of
bursting neurons.” (travel and local accommodation covered).
10. Courant Institute of Mathematical Sciences, New York University, Dynamics
Seminar, April 18, 2013. Talk: “Synchronization in networks with mixed
couplings.” (travel and local accommodation covered).
11. Courant Institute of Mathematical Sciences, New York University, Dynamics
Seminar, April 19, 2013. Talk: “Randomly switching dynamical systems: the
odds of meeting a ghost.”
12. Dynamical Systems and Mathematical Biology Seminar, Department of
Mathematics and Statistics, Georgia State University. December 7, 2012.
Talk: “Time-varying dynamical networks.”
13. Mathematical Biology and Ecology Seminar, School of Mathematics, Georgia
Institute of Technology. November 28, 2012. Talk: “Time-varying dynamical
networks”.
14. Department of Mechanical Engineering, University of New Mexico,
November 2, 2012. Colloquium talk: “Network synchronization and mixed
couplings: when friends turn enemies.” (travel and local accommodation
covered).
15. Math Circle, Department of Mathematics, Kennesaw State University, July
16, 2012. Talk: “Dynamical chaos and synchronization: the good, the bad, and
the ugly”.
16. Department of Mathematical Sciences, Indiana University-Purdue University-
Indianapolis, March 23, 2012. Colloquium talk: “Stochastically switching
dynamical systems” (travel and local accommodation covered).
17. Applied Mathematics Seminar, Department of Mathematics, Kennesaw State
University, March 16, 2012. Talk: “Dynamics of stochastically switching
systems”.
18. Department of Mathematics, University of Miami, November 21, 2011.
Applied Math Seminar: “Synchrony in metapopulations: the role of dispersal”.
(travel and local accommodation covered).
19. Department of Mathematics, University of Central Florida, Orlando, October
6, 2011. Colloquium talk: “Synchronization and network topology”.
IV. INSTRUCTION
Courses developed at Georgia State University:
New 8000-graduate level course “Advanced Mathematical Biology.” I taught
this course in Spring 2014.
New course “Mathematical Biology” proposed together with Dr. Shilnikov and
Dr. Smirnova. This 4000/6000 level course is cross-listed with the Department of
Biology. I taught this class for the first time in the 2008 spring semester.
New course “Advanced Topics in Ordinary Differential Equations and Dynamical
Systems” proposed together with Dr. Shilnikov.
New graduate level course "Dynamical Foundations of Neuroscience" proposed
together with Dr. Cymbalyuk (Physics) and Dr. Shilnikov (Neuroscience).
New graduate level course "Bioinformatics" proposed together with Dr.
Bondarenko.
Courses taught at Georgia State University:
Fall 2017
4010/6010 Mathematical Biology Teaching evaluation: 4.7 out of 5
Fall 2016
4265/6265 Partial Differential Equations Teaching evaluation: 4.8 out of 5
Spring 2016
3260 Ordinary Differential Equations Teaching evaluation: 4.7 out of 5
Fall 2015
4010/6010 Mathematical Biology Teaching evaluation: 4.2 out of 5
4265/6265 Partial Differential Equations Teaching evaluation: 4.8 out of 5
Fall 2014
4010/6010 Mathematical Biology Teaching evaluation: 4.8 out of 5
4265/6265 Partial Differential Equations Teaching evaluation: 4.7 out of 5
Spring 2014
8505 Advanced Mathematical Biology Teaching evaluation: 4.9 out of 5
Fall 2013
4010/6010 Mathematical Biology Teaching evaluation: 4.9 out of 5
4265/6265 Partial Differential Equations Teaching evaluation: 4.8 out of 5
Spring 2013
4275/6275 Applied Dynamical Systems Teaching evaluation: 4.9 out of 5
3435 Introductory Linear Algebra Teaching evaluation: 4.8 out of 5
Fall 2012
4010/6010 Mathematical Biology Teaching evaluation: 5 out of 5
Spring 2012
3260 Ordinary Differential Equations Teaching evaluation: 4.9 out of 5
4275/6275 Applied Dynamical Systems (directed reading, two students: Victor Bailey
and Douglas Carter)
Spring 2011:
2215 Multivariate Calculus Teaching evaluation: 4.7 out of 5
4010/6010 Mathematical Biology Teaching evaluation: 5 out of 5
Fall 2010:
2215 Multivariate Calculus Teaching evaluation: 4.8 out of 5
Spring 2010:
4010/6010 Mathematical Biology Teaching evaluation: 5 out of 5
3260 Ordinary Differential Equations Teaching evaluation: 4.6 out of 5
Fall 2009:
4265/6265 Partial Differential Equations Teaching evaluation: 4.7 out of 5
Spring 2009:
4275/6275 Applied Dynamical Systems Teaching evaluation: 4.9 out of 5
2215 Multivariate Calculus Teaching evaluation: 4.6 out of 5
Fall 2008:
3260 Ordinary Differential Equations Teaching evaluation: 4.8 out of 5
2215 Multivariate Calculus Teaching evaluation: 4.7 out of 5
Summer 2008:
3050 Geometry and Spatial Sense Teaching evaluation: 4.2 out of 5
Spring 2008:
4010/6010 Mathematical Biology Teaching evaluation: 4.7 out of 5
3435 Introductory Linear Algebra Teaching evaluation: 4.8 out of 5
Fall 2007:
3260 Ordinary Differential Equations Teaching evaluation: 4.8 out of 5
1101 Intro to Mathematical Modeling for non-science majors. Teaching evaluation: 3.5
out of 5
Spring 2007:
2215 Multivariate Calculus Teaching evaluation: 4.4 out of 5
2212 Calculus II Teaching evaluation: 4.2 out of 5
Fall 2006:
2215 Multivariate Calculus Teaching evaluation: 4.5 out of 5
3435 Introductory Linear Algebra Teaching evaluation: 4.5 out of 5
Spring 2006:
1220 Survey of calculus Teaching evaluation: 5 out of 5
2212 Calculus II Teaching evaluation: 4.6 out of 5.
Courses developed and taught at Swiss Federal Institute of Technology:
Dynamical Systems Theory for Engineers
(Specialization: Biocomputing).
2003-2004, 2004-2005
Direction of Individual Student Work
Ph.D. student, Russell Jeter, Fall 2013-present, (fully supported under the 2010-2015
NSF grant and the 2015-2018 US Army grant). Seven joint journal papers published.
Ph.D. student, Barrett Brister, Spring 2016-present. One journal paper published.
M.S.. student, Kelley Smith, Fall 2017-present.
Ph.D. student, Reimbay Reimbayev, Graduated in Spring 2017 (supported through the
Brains & Behavior program). Three journal papers published. First position: Visiting
Assistant Professor, Deparment of Mathematics, Auburn University, Alabama.
Ph.D. student, Douglas Carter, Graduated in Spring 2016. Thesis: “Synchronization in
hypernetworks of dynamical systems.” First position: Tenure-Track Assistant Professor,
Department of Mathematics, Morehouse College, Atlanta.
Ph.D. student, Kun Zhao, Graduated in 2012 (funded under the 2010-2015 NSF grant).
Thesis: “Mathematical methods for network analysis, proteomics, and disease
prevention.” First position: Senior Researcher at the Centers for Disease Control and
Prevention (CDC).
Ph.D student, Sajiya Jalil (Mathematics), Graduated in 2012 (co-directed with A.
Shilnikov). Thesis: Stability analysis of phase-locked bursting in inhibitory neuron
networks. First position: Postdoc at the University of Texas Health Science Center at
Houston.
MS student, Malcom Devoe (Mathematics), Graduated in 2012. Thesis: “Cellular
neural networks with switching connections”. First position: Ph.D. student in Math
Education at GSU.
Undergraduate student, Kevin Daley, undergraduate research supervised (Project:
“Phase-Locking in Neuronal Networks with Chemical and Electrical Coupling”), GSU
RIMMES program, Fall 2014-present. One journal paper published.
US Army Research Office Undergraduate Research Apprenticeship Program (URAP)
student, Megan Shellman, a computer science major, undergraduate research supervised,
Project: “Epileptic networks,” Summer 2016 (supported under my HSAP/URAP grant,
US Army Research Office).
US Army Research Office High School Research Apprenticeship Program (URAP)
student, Shaina Morgan (Westlake High School), research supervised, Project: “Models
of human gaits,” Summer 2016 2016 (supported under my HSAP/URAP grant, US Army
Research Office).
REU undergraduate student, Russell Jeter, Fall 2012-Spring 2013 (supported under REU
supplement to the existing NSF grant.)
REU undergraduate student, Victor Bailey, Fall 2012-Spring 2013 (supported under REU
supplement to the existing NSF grant.)
REU undergraduate student, Stephen Pardue (Augusta State University/Georgia Tech),
Summers 2012, 2013 (supported under REU supplement to the existing NSF grant.)
Ph.D student, Enno de Lange, doctoral work directed (Title: “Bifurcations in neuronal
models), Swiss Federal Institute of Technology, 2002-2005 (co-advised with Martin
Hasler).
MS student, Menno Lauret, 3-month traineeship supervised (thesis DCT 2004.105 “The
influence of network topology on synchronization,” Eindhoven University of Technology
Press, 2004; a joint paper in a referred international journal).
Undergraduate student, David Clifton, undergraduate research supervised (Project:
“Algebraic connectivity and cooperative dynamics of complex networks”), GSU
RIMMES program (Research Initiations in Mathematics, Mathematics Education and
Statistics), Fall 2009-present.
Undergraduate student, Nathan Krug, undergraduate research supervised (Project:
“Synchrony in excitatory networks”), GSU RIMMES program (Research Initiations in
Mathematics, Mathematics Education and Statistics), Fall 2009-Spring 2010.
Undergraduate student, Robert Brown, undergraduate research supervised (Project:
“Dynamics of financial networks”), GSU RIMMES program (Research Initiations in
Mathematics, Mathematics Education and Statistics), Fall 2008-Spring 2009.
Undergraduate student, David Brandt, undergraduate research supervised (Project:
“Synchrony in food chain metapopulations”), GSU RIMMES program (Research
Initiations in Mathematics, Mathematics Education and Statistics), Fall 2008-Spring
2009.
Undergraduate student, Rene Gordon, Spring 2008 – Fall 2008, a joint paper in a
referred international journal.
Undergraduate student, Jason Adams (Mathematics), undergraduate research supervised
(Project: “Metapopulation networks: interplay between topology and local dynamics”),
GSU RIMMES program (Research Initiations in Mathematics, Mathematics Education
and Statistics), Fall 2007-Spring 2008.
Undergraduate student, Lyudmila Petrova (Biology), undergraduate research supervised
(Project: “Patterns of synchrony in neuronal networks”), GSU RIMMES program,
Georgia State University, Fall 2007-Spring 2008.
Undergraduate student, Andrew Foust (Computer Science), individual creative work
supervised (Project: “Predictive model for low-velocity tunning: the Matlab
implementation”), Georgia State University, Spring 2006 – Fall 2007.
Graduate Computer Science student, Srilaxmi Malladi, directed (Direct reading, CRN
87238, 1 credit hour, Project: “Veloctiy tunning in visual neurons”), Georgia State
University, Fall 2006.
Undergraduate student, Erik Tyndal (Mathematics), individual creative work supervised
(Project: “Neuronal phase-locking”), Georgia State University, Fall 2006.
Selected student presentations:
R. Jeter and I. Belykh, “Synchronization in stochastically evolving complex net-
works,” Department Retreat, GSU Department of Mathematics, Atlanta, GA, April
23, 2016. Oral talk.
R. Jeter and I. Belykh, “Synchronization in Stochastically Evolving Complex Networks,"
Carolina Dynamics Symposium, Furman, Greenville, SC, April 1-3, 2016. Oral Talk.
R. Jeter and I. Belykh, “Synchrony in metapopulations with on-off stochastic dispersal:
windows of opportunity,” AMS Spring Southeastern Sectional Meeting, Huntsville, AL.
March 28, 2015. Oral talk.
R. Jeter and I. Belykh, “Synchrony in metapopulations with on-off stochastic dispersal,”
GSU Department of Mathematics Graduate Research Conference, Atlanta, GA. May 1,
2015. Poster.
R. Jeter and I. Belykh “Windows of opportunity: synchronization in on-off stochastic
networks,” SIAM Conference on Applications of Dynamical Systems, Snowbird, UT,
May 17-21, 2015. Poster.
R. Reimbayev and I. Belykh, “Repulsive inhibition promotes synchrony in excitatory
networks of bursting neurons,” SIAM Conference on Applications of Dynamical Systems,
Snowbird, UT, May 17-21, 2015. Poster.
R. Jeter and I. Belykh “Synchrony in metapopulations with sporadic dispersal,” Society of
Mathematical Biology Annual Meeting 2015, Atlanta, GA, June 29-July 3, 2015. Poster.
R. Jeter and I. Belykh, “Network synchronization enhanced by slowly switching on-off
Connections," Georgia Scientific Computing Symposium, KSU. February 22, 2014.
Poster.
R. Jeter and I. Belykh, “Synchrony in metapopulations with on-off stochastic dispersal,"
SIAM Conference on the Life Sciences, Charlotte, NC. August 5, 2014. Poster.
K. Daley, R. Reimbayev and I. Belykh, “Push-pull synchronization mechanism of
electrical and inhibitory coupling in bursting neurons: the role of duty cycle,” Int.
Conference, BrainModes-2015, Atlanta, December 2015. Poster.
S. Jalil, I. Belykh, and A. Shilnikov, “Multiple Phase Locked States in Half-Center
Oscillators,” 2011 SIAM Conference on Applications of Dynamical Systems, Snowbird,
USA, May 22-26, 2011. Oral talk.
K. Zhao and I. Belykh, “Augmented graph method for synchronization in directed
networks,” 2011 SIAM Conference on Applications of Dynamical Systems, Snowbird,
USA, May 22-26, 2011. Poster.
S. SERVICE
Executive Committee, Department of Mathematics and Statistics (since 2015).
Neuroscience Qualifying Exam Committee, Summer 2014.
Director of Undergraduate Advisement, Department of Mathematics and
Statistics, GSU (2009-2015).
Brains and Behavior Program Ambassador (since 2013).
Reviewer for Brains & Behavior Seed Grants.
P&T Subcommittee for changing pre-tenure and post-tenure guidelines (Fall
2014).
2CI Hiring Committee (Fall 2013-Fall 2015).
PT&T Committee (since 2011).
Chair of Bioinformatics Hiring Committee (2010-2011).
Webmaster and Chair of Web Committee, Department of Mathematics and
Statistics (2008-2011).
Director of the Applied Mathematics and Analysis research group (since 2009).
Research Committee (since 2006).
Bioinformatics Hiring Committee (2007).
Graduate Committee, Bioinformatics Committee (since 2008).
Web Migration Committee, College of Arts and Sciences, GSU (since 2008-
2011).