Distributed adaptive formation tracking for heterogeneous multiagent systems with multiple nonidentical leaders and without well‐informed follower

Distributed adaptive formation tracking for heterogeneous multiagent systems with multiple nonidentical leaders and without well‐informed follower

Summary This paper studies the time‐varying output formation tracking (OFT) problems for linear heterogeneous multiagent systems with multiple leaders, where both the followers and the leaders can have nonidentical dynamics and dimensions. The existing results on formation tracking with multiple lea...

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Bibliographic Details
Published in:International journal of robust and nonlinear control Vol. 30; no. 6; pp. 2131 - 2151
Main Authors: Hua, Yongzhao, Dong, Xiwang, Li, Qingdong, Ren, Zhang
Format: Journal Article
Language:English
Published: Bognor Regis Wiley Subscription Services, Inc 01-04-2020
Subjects:
Adaptive algorithms
adaptive distributed observer
Adaptive systems
Computer simulation
formation tracking
heterogeneous multiagent systems
Mathematical analysis
Matrices (mathematics)
Multiagent systems
multiple leaders
Tracking
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Summary:Summary This paper studies the time‐varying output formation tracking (OFT) problems for linear heterogeneous multiagent systems with multiple leaders, where both the followers and the leaders can have nonidentical dynamics and dimensions. The existing results on formation tracking with multiple leaders depend on the assumption that each follower is well‐informed or uninformed, where the well‐informed follower has all the leaders as its neighbor. To remove this assumption, a novel OFT approach is presented using a distributed observer scheme. Firstly, based on the local estimation and the interaction with neighboring followers, a fully distributed observer is designed for each follower to estimate the dynamical matrices and the states of multiple leaders without requiring the well‐informed follower assumption. The convergence of the distributed observer is proved by using Lyapunov theory. Then, an adaptive algorithm is proposed to solve the regulator equations in finite time based on the estimation of the leaders' dynamical matrices. Furthermore, the desired time‐varying output formation of each follower is generated by a local active exosystem. A time‐varying OFT protocol is presented using the estimated states of multiple leaders, the online solutions of the regulator equations, and the desired formation vector generated by the local exosystem. It is proved that the outputs of the followers can not only realize the expected formation shape but also track the predefined convex combination of multiple leaders. Finally, a simulation example is given to verify the theoretical results.
ISSN:1049-8923
1099-1239
DOI:10.1002/rnc.4891