核心概念
This paper introduces the concept of a generalized (nonsmooth) Lyapunov barrier function (GenLBF) to unify control Lyapunov function (CLF) and control barrier function (CBF) for certifying KL-stability and safety of nonlinear control systems. The authors propose a systematic approach for constructing a suitable GenLBF and an efficient method for evaluating its generalized derivative. The GenLBF-based control design ensures safe stabilization of both autonomous and non-autonomous systems.
要約
The paper addresses the safe stabilization problem, which aims to control the system state to the origin while avoiding entry into unsafe state sets. The authors introduce the concept of a generalized (nonsmooth) Lyapunov barrier function (GenLBF) to tackle this challenge.
Key highlights:
- The GenLBF unifies the properties of a CLF and a CBF, guaranteeing the existence of a safe and stable controller.
- The authors provide a systematic approach for constructing a GenLBF, including an efficient method for computing its upper generalized derivative.
- Using the GenLBF, the authors propose a method for certifying safe stabilization of autonomous systems and a piecewise continuous feedback control to achieve safe stabilization of non-autonomous systems.
- A controller refinement strategy is further proposed to help the state trajectory escape from undesired local points in systems with special physical structure.
- The theoretical analysis demonstrates the effectiveness of the proposed method in addressing the safe stabilization problem for systems with single or multiple bounded unsafe state sets.
- Extensive simulations of linear and nonlinear systems illustrate the efficacy of the proposed method and its superiority over the smooth control Lyapunov barrier function method.