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基于在线数据的物理信息轨迹推断的闭环输出误差方法

A Closed-Loop Output Error Approach for Physics-Informed Trajectory Inference Using Online Data

IEEE Transactions on Cybernetics · 2022
被引 17
ABS 3

中文导读

提出一种闭环输出误差方法,结合状态估计和参数辨识,利用在线数据和物理模型推断线性系统的无噪声轨迹,并通过李雅普诺夫理论分析稳定性与收敛性。

Abstract

While autonomous systems can be used for a variety of beneficial applications, they can also be used for malicious intentions and it is mandatory to disrupt them before they act. So, an accurate trajectory inference algorithm is required for monitoring purposes that allows to take appropriate countermeasures. This article presents a closed-loop output error approach for trajectory inference of a class of linear systems. The approach combines the main advantages of state estimation and parameter identification algorithms in a complementary fashion using online data and an estimated model, which is constructed by the state and parameter estimates, that inform about the physics of the system to infer the followed noise-free trajectory. Exact model matching and estimation error cases are analyzed. A composite update rule based on a least-squares rule is also proposed to improve robustness and parameter and state convergence. The stability and convergence of the proposed approaches are assessed via the Lyapunov stability theory under the fulfilment of a persistent excitation condition. Simulation studies are carried out to validate the proposed approaches.

控制系统轨迹推断系统辨识状态估计鲁棒性