具有定量通信功能的状态延迟线性参数变化系统的弹性分布式模型预测控制，抵御拒绝服务攻击

IF 2.7 4区计算机科学 Q2 AUTOMATION & CONTROL SYSTEMS

Asian Journal of Control Pub Date : 2024-07-08 DOI:10.1002/asjc.3465

Aiping Zhong, Wanlin Lu, Langwen Zhang

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引用次数: 0

摘要

本研究针对通信网络中存在状态延迟和攻击的线性参数变化（LPV）系统，提出了一种弹性分布式模型预测控制（MPC）方法。分布式 MPC（DMPC）需要协调才能达到集中式 MPC（CMPC）的全局性能。然而，不可靠的通信网络（如拒绝服务（DoS）攻击）会严重降低控制性能。为了解决 DMPC 中的通信不可靠问题，我们提出了一种弹性控制框架，将全局系统划分为多个子系统，实现分布式控制。为了处理模型的不确定性和状态延迟，提出了一种 "最小-最大 "DMPC 算法，该算法带有缓冲区，可确保抵御 DoS 攻击。引入了一种量化方案，对子系统之间交换的控制信息进行量化。提出了一种迭代交互方案，用于交换子系统间的反馈控制法。利用 Lyapunov 函数方法确保了闭环系统在所提算法下的稳定性。通过两个仿真实例证明了所提出的 DMPC 的有效性。

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Resilient distributed model predictive control of state‐delayed linear parameter varying systems with quantitative communication against denial of service attacks

This work presents a resilient distributed model predictive control (MPC) method for linear parameter varying (LPV) systems with state delays and attacks in communication networks. Coordinations are required for distributed MPC (DMPC) to achieve the global performance of centralized MPC (CMPC). However, control performance can be severely degraded by unreliable communication networks, for example, with denial of service (DoS) attacks. A resilient control framework is derived to address the unreliable communications in DMPC. A global system is divided into subsystems for the distributed control purpose. To deal with the model uncertainties and state delays, a “min‐max” DMPC algorithm is presented with a buffer to ensure resilience against DoS attacks. A quantization scheme is introduced to quantize the control information exchanged between subsystems. An iterative interaction scheme is proposed to exchange feedback control laws among subsystems. The stability of the closed‐loop system under the proposed algorithm is ensured by using a Lyapunov function method. The effectiveness of the proposed DMPC is demonstrated through two simulation examples.

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来源期刊

Asian Journal of Control 工程技术-自动化与控制系统

CiteScore

4.80

自引率

25.00%

发文量

253

审稿时长

7.2 months

期刊介绍： The Asian Journal of Control, an Asian Control Association (ACA) and Chinese Automatic Control Society (CACS) affiliated journal, is the first international journal originating from the Asia Pacific region. The Asian Journal of Control publishes papers on original theoretical and practical research and developments in the areas of control, involving all facets of control theory and its application. Published six times a year, the Journal aims to be a key platform for control communities throughout the world. The Journal provides a forum where control researchers and practitioners can exchange knowledge and experiences on the latest advances in the control areas, and plays an educational role for students and experienced researchers in other disciplines interested in this continually growing field. The scope of the journal is extensive. Topics include: The theory and design of control systems and components, encompassing: Robust and distributed control using geometric, optimal, stochastic and nonlinear methods Game theory and state estimation Adaptive control, including neural networks, learning, parameter estimation and system fault detection Artificial intelligence, fuzzy and expert systems Hierarchical and man-machine systems All parts of systems engineering which consider the reliability of components and systems Emerging application areas, such as: Robotics Mechatronics Computers for computer-aided design, manufacturing, and control of various industrial processes Space vehicles and aircraft, ships, and traffic Biomedical systems National economies Power systems Agriculture Natural resources.