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基于部分状态测量的未知线性系统轨迹推断

Trajectory Inference of Unknown Linear Systems Based on Partial States Measurements

IEEE Transactions on Systems, Man, and Cybernetics: Systems · 2024
被引 6
ABS 3

中文导读

提出一种基于部分状态测量的轨迹推断算法,结合状态估计与系统辨识,通过李雅普诺夫稳定性理论保证收敛,用于监控自主系统异常行为。

Abstract

Proliferation of cheaper autonomous system prototypes has magnified the threat space for attacks across the manufacturing, transport, and smart living sectors. An accurate trajectory inference algorithm is required for monitoring and early detection of autonomous misbehavior and to take relevant countermeasures. This article presents a trajectory inference algorithm based on a CLOE approach using partial states measurements. The approach is based on a physics informed state parameteterization that combines the main advantages of state estimation and identification algorithms. Noise attenuation and parameter estimates convergence are obtained if the output trajectories fulfill a persistent excitation condition. Known and unknown desired reference/destination cases are considered. The stability and convergence of the proposed approach are assessed via Lyapunov stability theory under the fulfillment of a persistent excitation condition. Simulation studies are carried out to verify the effectiveness of the proposed approach.

控制系统轨迹推断状态估计系统辨识自主系统安全