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- Title
Nonlinear placement for networked Euler‐Lagrange systems: A finite‐time hierarchical approach.
- Authors
Liu, Wen‐Jin; Ding, Hua‐Feng; Yao, Xiang‐Yu; Ge, Ming‐Feng; Hua, Menghu
- Abstract
The finite‐time nonlinear placement problem of networked Euler‐Lagrange systems (NELSs) is discussed in this paper. The problem is reformulated into a finite‐time aggregate game under an undirected graph. Then, several novel practical gradient‐based finite‐time hierarchical (GFTH) algorithms composed of a game layer, a Nash equilibrium (NE) seeking layer, and a control layer are proposed. Specifically, the game layer employs an aggregate function to reach a consensus on the potential aggregate value which is adopted by a gradient‐based finite‐time method to tackle the finite‐time NE seeking problem in the NE seeking layer, and then, the tracking problem is realized in the control layer. The convergence results are established by a nonsmooth Lyapunov function. In addition, the versatility of the GFTH algorithms is shown by extending to address the task‐space control problem of NELSs. The effectiveness of the proposed algorithms is illustrated via simulations.
- Subjects
EULER-Lagrange system; NASH equilibrium; UNDIRECTED graphs; LYAPUNOV functions; NONLINEAR equations; EULER-Lagrange equations
- Publication
International Journal of Robust & Nonlinear Control, 2023, Vol 33, Issue 5, p3129
- ISSN
1049-8923
- Publication type
Article
- DOI
10.1002/rnc.6557