English

Distributed Global Output-Feedback Control for a Class of Euler-Lagrange Systems

Systems and Control 2019-07-02 v1 Robotics Systems and Control

Abstract

This published paper investigates the distributed tracking control problem for a class of Euler-Lagrange multi-agent systems when the agents can only measure the positions. In this case, the lack of the separation principle and the strong nonlinearity in unmeasurable states pose severe technical challenges to global output-feedback control design. To overcome these difficulties, a global nonsingular coordinate transformation matrix in the upper triangular form is firstly proposed such that the nonlinear dynamic model can be partially linearized with respect to the unmeasurable states. And, a new type of velocity observers is designed to estimate the unmeasurable velocities for each system. Then, based on the outputs of the velocity observers, we propose distributed control laws that enable the coordinated tracking control system to achieve uniform global exponential stability (UGES). Both theoretical analysis and numerical simulations are presented to validate the effectiveness of the proposed control scheme. Followed by the original paper, a typo and a mistake is corrected.

Keywords

Cite

@article{arxiv.1907.00220,
  title  = {Distributed Global Output-Feedback Control for a Class of Euler-Lagrange Systems},
  author = {Qingkai Yang and Hao Fang and Jie Chen and Zhong-Ping Jiang and Ming Cao},
  journal= {arXiv preprint arXiv:1907.00220},
  year   = {2019}
}

Comments

The original published paper and its errata are presented

R2 v1 2026-06-23T10:07:32.220Z