English

Prescribed-time convergence with input constraints: A control Lyapunov function based approach

Systems and Control 2021-06-11 v1 Optimization and Control

Abstract

In this paper, we present a control framework for a general class of control-affine nonlinear systems under spatiotemporal and input constraints. Specifically, the proposed control architecture addresses the problem of reaching a given final set SS in a prescribed (user-defined) time with bounded control inputs. To this end, a time transformation technique is utilized to transform the system subject to temporal constraints into an equivalent form without temporal constraints. The transformation is defined so that asymptotic convergence in the transformed time scale results into prescribed-time convergence in the original time scale. To incorporate input constraints, we characterize a set of initial conditions DMD_M such that starting from this set, the closed-loop trajectories reach the set SS within the prescribed time. We further show that starting from outside the set DMD_M, the system trajectories reach the set DMD_M in a finite time that depends upon the initial conditions and the control input bounds. We use a novel parameter μ\mu in the controller, that controls the convergence-rate of the closed-loop trajectories and dictates the size of the set DMD_M. Finally, we present a numerical example to showcase the efficacy of our proposed method.

Keywords

Cite

@article{arxiv.1903.06974,
  title  = {Prescribed-time convergence with input constraints: A control Lyapunov function based approach},
  author = {Kunal Garg and Ehsan Arabi and Dimitra Panagou},
  journal= {arXiv preprint arXiv:1903.06974},
  year   = {2021}
}

Comments

Submitted to 2019 IEEE CDC, under review

R2 v1 2026-06-23T08:10:19.141Z