Identification of non-causal systems with arbitrary switching modes

Yanxin Zhang, Chengpu Yu, Filippo Fabiani
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Abstract

We consider the identification of non-causal systems with arbitrary switching modes (NCS-ASM), a class of models essential for describing typical power load management and department store inventory dynamics. The simultaneous identification of causal-and-anticausal subsystems, along with the presence of possibly random switching sequences, however, make the overall identification problem particularly challenging. To this end, we develop an expectation-maximization (EM) based system identification technique, where the E-step proposes a modified Kalman filter (KF) to estimate the states and switching sequences of causal-and-anticausal subsystems, while the M-step consists in a switching least-squares algorithm to estimate the parameters of individual subsystems. We establish the main convergence features of the proposed identification procedure, also providing bounds on the parameter estimation errors under mild conditions. Finally, the effectiveness of our identification method is validated through two numerical simulations.
识别具有任意开关模式的非因果系统
我们考虑了具有任意切换模式的非因果系统(NCS-ASM)的识别问题,这是一类对描述典型的电力负荷管理和百货商店库存动态至关重要的模型。然而,同时识别因果和反因果子系统,以及可能存在的随机切换序列,使得整个识别问题特别具有挑战性。为此,我们开发了一种基于期望最大化(EM)的系统识别技术,其中 E 步采用修正卡尔曼滤波器(KF)来估计因果和反因果子系统的状态和切换序列,而 M 步则采用切换最小二乘算法来估计单个子系统的参数。我们确定了拟议识别程序的主要收敛特征,还提供了温和条件下的参数估计误差约束。最后,我们通过两次数值模拟验证了识别方法的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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