Lulu Li

Ph.D. in Mathematics from City University of Hong Kong, is currently an associate professor of School of Mathematics at Hefei University of Technology and the head of the Department of Information and Computational Science. His main research areas are dynamical analysis and control of complex networks and complex systems. He has published more than 50 SCI papers in international mainstream journals, including 15 papers in Automatica, IEEE Trans. series, and one academic monograph. He has won the third Anhui Provincial Young Mathematics Award, the second prize of Jiangsu Provincial Natural Science Award (ranked fifth), and he presided over two national funds and one provincial fund.

E-MAIL: lululima@hfut.edu.cn

Selected publications:

[1] Lulu Li, Qian Cui, Jinde Cao, Jianlong Qiu, Yifan Sun. Exponential synchronization of coupled inertial neural networks with hybrid delays and stochastic impulses. IEEE Transactions on Neural Networks and Learning Systems. doi: 10.1109/TNNLS.2023.3286825, 2023.

[2] Jie Liu, Lulu Li, Daniel W. C. Ho. Distributed constrained optimization with periodic dynamic quantization. Automatica. In press, 2023.

[3]Lulu Li, Yifan Sun, Jianquan Lu, Jinde Cao. Dynamic quantization driven synchronization of networked systems under event-triggered mechanism. IEEE Transactions on Circuits and Systems I: Regular Papers. 69(4):1728-1740, 2022.

[4] Yifan Sun, Lulu Li, Daniel W. C. Ho. Quantized synchronization control of networked nonlinear systems: dynamic quantizer design with event-triggered mechanism. IEEE Transactions on Cybernetics. 53(1): 184-196, 2023.

[5] Lulu Li, Xiaoyang Liu, Wei Huang. Event-based bipartite multi-agent consensus with partial information transmission and communication delays under antagonistic interactions. SCIENCE CHINA Information Sciences. 63(5): 150204, 2020.

Li Ma

Li Ma is an associate professor and master supervisor of School of Mathematics, Hefei University of Technology. He received the B.S., M.S. and Ph.D. degrees from the Shanghai University in 2010, 2014 and 2017, respectively. His current research interests include Fractional differential/difference system modelling, Nonlinear analysis for FDS, Bifurcation and chaos in FDS, Reduction methods for FDS.

E-mail: mali@hfut.edu.cn

Selected publications:

[1] Ma Li, Fan Dahong. On discrete tempered fractional calculus and its application, Fractional Calculus and Applied Analysis, 2023, 26(3): 1384--1420.

[2] Ma Li, Wu Bowen. On the fractional Lyapunov exponent for Hadamard-type fractional differential system, Chaos, 2023, 33(1): 013117. (Editor's Pick)

[3] Ma Li, Li Jing. A bridge on Lomnitz type creep laws via generalized fractional calculus, Applied Mathematical Modelling, 2023, 116: 786--798.

[4] Ma Li, Wu Bowen. Finite-time stability of Hadamard fractional differential equations in weighted Banach spaces, Nonlinear Dynamics, 2022, 107(4): 3749--3766.

[5] Ma Li, Li Changpin. On finite part integrals and Hadamard-type fractional derivatives, Journal of Computational and Nonlinear Dynamics, 2018, 13(9): 090905.

Xiao-Wen Zhao

Xiaowen Zhao is an associate professor and master supervisor of School of Mathematics, Hefei University of Technology. He received my MS degree in Applied Mathematics from Anhui University in 2009, and PhD degree in Control Theory and Control Engineering from Huazhong University of Science and Technology in 2017. His current research interests include Multi-Agent Systems, Complex Network, Nonlinear Dynamics, and Cooperative Control.

E-MAIL: zhaoxiaowen1983@163.com

Selected publications:

[1] Xiao-Wen Zhao, Guangsong Han, et al. Multiconsensus of first-order multiagent systems with directed topologies. Modern Physics Letters B, 2020, 34(23): 2050240.

[2] Xiao-Wen Zhao, Zhi-Hong Guan, et al Attitude-synchronization flocking of multiple 3-dimensional nonholonomic agents without position measurement. International Journal of Robust and Nonlinear Control, 2018, 28(6): 2369-2382.

[3] Xiao-Wen Zhao, Zhi-Hong Gua, et a. Flocking of multi-agent nonholonomic systems with unknown leader dynamics and relative measurements. International Journal of Robust and Nonlinear Control, 2017, 27(17): 3685-3702.

[4] Xiao-Wen Zhao, Ming Chi, Zhi-Hong Guan, et al. Flocking of multiple three-dimensional nonholonomic agents with proximity graphs. Journal of the Franklin Institute, 2017, 354(8): 3617-3633.

[5] Xiao-Wen Zhao, Bin Hu, Zhi-Hong Guan, et al. Multi-flocking of networked non-holonomic mobile robots with proximity graphs. IET Control Theory & Applications, 2016, 10(16): 2093-2099.