Zahra Yaghoubi
[1] L. Yang, Z. Cao, C. Zhou, L. Cheng, and M. Tan, Formation control and switching for multiple robots in uncertain environments, International Journal of Robotics & Automation, 25(3), 2010, 240. [2] Q. Han, S. Sun, and H. Lang, Leader-follower formation control of multi-robots based on bearing-only observations, International Journal of Robotics and Automation, 34(2), 2019, 120–129. [3] Y.V. Karteek, I. Kar, and S. Majhi, Consensus of multi-agent systems using back-tracking and history following algorithms, International Journal of Robotics and Automation, 32(4), 2017. [4] J. Zhan and X. Li, Cluster consensus in networks of agents with weighted cooperative–competitive interactions, IEEE Transactions on Circuits & Systems II: Express Briefs, 65(2), 2018, 241–245. [5] B. Goodwine, Modeling a multi-robot system with fractional-order differential equations, Robotics and Automation (ICRA), 2014 IEEE International Conference on, Citeseer, Hong Kong, China, 2014, 1763–1768. [6] P. Skobelev, E. Simonova, A. Zhilyaev, and V. Travin, Application of multi-agent technology in the scheduling system of swarm of Earth remote sensing satellites, Procedia Computer Science, 103, 2017, 396–402. [7] J. Ansari, A. Gholami, and A. Kazemi, Multi-agent systems for reactive power control in smart grids, International Journal of Electrical Power & Energy Systems, 83, 2016, 411–425. [8] G. Ren and Y. Yu, Robust consensus of fractional multi-agent systems with external disturbances, Neurocomputing, 218, 2016, 339–345. [9] H. Du, S. Li, and P. Shi, Robust consensus algorithm for second-order multi-agent systems with external disturbances, International Journal of Control, 85(12), 2012, 1913–1928. 254 [10] Y. Cao, Y. Li, W. Ren, and Y. Chen, Distributed coordination of networked fractional-order systems, IEEE Transactions on Systems, Man, and Cybernetics, Part B (Cybernetics), 40(2), 2010, 362–370. [11] T. Mur and H.R. Henriquez, Relative controllability of linear systems of fractional order with delay, Mathematical Control and Related Fields, 5(4), 2015, 845–858. [12] Z. Yaghoubi and H.A. Talebi, Consensus tracking for nonlinear fractional-order multi-agent systems using adaptive sliding mode controller, Mechatronic Systems and Control, 47(4), 2019, 194–200. [13] L. Ding, P. Yu, Z.-W. Liu, and Z.-H. Guan, Consensus and performance optimisation of multi-agent systems with position-only information via impulsive control, IET Control Theory & Applications, 7(1), 2013, 16–24. [14] I. Podlubny, Fractional differential equations: an introduction to fractional derivatives, fractional differential equations, to methods of their solution and some of their applications (California, USA: Elsevier, 1998). [15] Y. Li, Y. Chen, and I. Podlubny, Stability of fractional-order nonlinear dynamic systems: Lyapunov direct method and generalized Mittag–Leffler stability, Computers & Mathematics with Applications, 59(5), 2010, 1810–1821. [16] N. Aguila-Camacho, M.A. Duarte-Mermoud, and J.A. Gallegos, Lyapunov functions for fractional order systems, Communications in Nonlinear Science and Numerical Simulation, 19(9), 2014, 2951–2957. [17] S. Zhang, Y. Yu, and J. Yu, LMI conditions for global stability of fractional-order neural networks, IEEE Transactions on Neural Networks and Learning Systems, 28(10), 2017, 2423– 2433. [18] Z. Li, Z. Duan, G. Chen, and L. Huang, Consensus of multiagent systems and synchronization of complex networks: A unified viewpoint, IEEE Transactions on Circuits & Systems I: Regular Papers, 57(1), 2010, 213–224. [19] X. Yang, C. Li, T. Huang, and Q. Song, Mittag–Leffler stability analysis of nonlinear fractional-order systems with impulses, Applied Mathematics and Computation, 293, 2017, 416–422. [20] G. Wen, Z. Duan, G. Chen, and W. Yu, Consensus tracking of multi-agent systems with Lipschitz-type node dynamics and switching topologies, IEEE Transactions on Circuits and Systems I: Regular Papers, 61(2), 2014, 499–511. [21] L. Chen, Y.-W. Wang, W. Yang, and J.-W. Xiao, Robust consensus of fractional-order multi-agent systems with input saturation and external disturbances, Neurocomputing, 303, 2018, 11–19. [22] R.A. Horn and C.R. Johnson, Matrix analysis (Cambridge, United Kingdom: Cambridge University Press, 1990). [23] F. Zhu and Z. Han, A note on observers for Lipschitz nonlinear systems, IEEE Transactions on Automatic Control, 47(10), 2002, 1751–1754.
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