Security Control for a Cyber–Physical System and/or Multi-Agent System under Fault or Malicious Attack
A special issue of Sensors (ISSN 1424-8220). This special issue belongs to the section "Fault Diagnosis & Sensors".
Deadline for manuscript submissions: closed (29 February 2024) | Viewed by 9178
Special Issue Editor
Interests: unknown input observer design; disturbance observer design; fault diagnosis; fault detection and fault-tolerant control; security control for CPS; security state estimation; cooperative control for multi-agent system; attack detection for CPS and MAS; T-S fuzzy model control; sliding mode robust control
Special Issues, Collections and Topics in MDPI journals
Special Issue Information
Dear Colleagues,
Cyber–physical systems (CPS) and multi-agent systems (MAS) are two major complex networks which can represent or be applied to many practical systems. For example, CPS has been applied to the energy system, smart grid system, and industrial control system. For MAS, multi-robot formations, unmanned aerial vehicles, and intelligent transportation systems are some application scenarios. To work normally for CPS or MAS, the information transmission between the cyber layer and the physical layer is necessary for CPS, while information transmission among the agents is also a must for MAS. All the information transmissions are carried out through public transmission channels, which easily suffer from external malicious attacks. Moreover, the actuator and sensor are two components that often experience faults. Therefore, the investigation of the security control for CPS and/or MAS under fault or malicious attack is significant. In this section, for CPS and/or MAS, we focus on, but are not limited to, the following issues:
- Security state estimation and disturbance reconstruction under denial-of-service (DoS) or false-date-injection (FDI) attacks;
- Fault detection, fault reconstruction, and fault-tolerant control;
- Security cooperative control (consensus and synchronization, formation-containment tracking control, swarming control) under DoS or FDI attacks;
- Self-trigger-based security control under DoS attack;
- Leader–follower MAS observer-based human-in-the-loop consensus control;
- MAS-based distributed resilient control in view of CPS;
- MAS consensus control and its application to vehicle platoon system.
Prof. Dr. Fanglai Zhu
Guest Editor
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