Cooperative Safety Control of Multiagent Systems

Distributed coordination in multi-agent systems has garnered significant attention from researchers across diverse fields like biology, physics, and engineering, driven by its critical applications such as satellite attitude alignment and cooperative control of unmanned aerial vehicles. However, designing cooperative safety control for these systems remains challenging, particularly when agents face faults and external disturbances. The fully actuated system approach, which has gained considerable interest for its effectiveness in simplifying control design and analysis, offers a promising framework for tackling complex safety control problems.

This book focuses on cooperative safety control design for multi-agent systems based on the fully actuated system approach. It presents recent theoretical advances and applications for addressing cooperative control problems under actuator faults and external disturbances. Key topics explored include prescribed-time control, prescribed performance control, and fault-tolerant game control. A central feature of the book is its proposal and utilization of the fully actuated system approach for cooperative safety control, offering distinct advantages by significantly reducing the complexity of control design and stability analysis.

This book is primarily designed for engineers, researchers, and postgraduate students who aspire to deepen their understanding of cooperative control in multi-agent systems. Additionally, it serves as a valuable reference for professionals in related fields such as multi-robot systems, unmanned aerial vehicle formations, and control engineering. Moreover, the content is well-suited for advanced courses or seminars focused on these subjects.