A Preset-Trajectory-Based Singularity-Free Preassigned Performance Control Approach
成果类型:
Article
署名作者:
Shi, Wenrui; Hou, Mingzhe; Duan, Guangren
署名单位:
Harbin Institute of Technology
刊物名称:
IEEE TRANSACTIONS ON AUTOMATIC CONTROL
ISSN/ISSBN:
0018-9286
DOI:
10.1109/TAC.2024.3371353
发表日期:
2024
页码:
6183-6190
关键词:
VECTORS
steady-state
Nonlinear systems
uncertainty
control design
transient analysis
trajectory
preassigned performance control (PPC)
preset trajectory (PT)
singularity
Sliding mode control
摘要:
The preassigned performance control (PPC) methods have attracted considerable attention in recent years; however, most of the mainstream PPC methods utilize barrier functions, and thus, may suffer from the singularity problem of the control law under some unexpected conditions, such as sensor faults. In this article, a new robust PPC method without using barrier functions is proposed for second-order vector nonlinear systems, which can completely avoid the singularity problem of the control law and be considered as a complement to these mainstream PPC methods. The control design consists of three steps: first, a performance function is constructed to form the performance envelope according to the performance requirements; second, a preset trajectory (PT) is generated within the performance envelope; third, a robust sliding mode control law is designed to make the actual tracking error evolve in a certain tubular area that contains the PT and is strictly within the performance envelope. Furthermore, the obtained result is extended to the case of adaptive PPC. The effectiveness and the advantages of the proposed robust PPC method are illustrated by simulation results.
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