基于I-MMSE关系的离散时间控制和滤波限制的信息论分析

IF 7 1区计算机科学 Q1 AUTOMATION & CONTROL SYSTEMS

IEEE Transactions on Automatic Control Pub Date : 2025-03-19 DOI:10.1109/TAC.2025.3553075

Neng Wan;Dapeng Li;Naira Hovakimyan;Petros G. Voulgaris

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引用次数: 0

摘要

基本限制或性能权衡/限制是控制和过滤系统的重要属性和约束。在各种权衡指标中，通常使用微分熵率和Kolmogorov-Bode公式来研究表征控制和滤波系统的灵敏度权衡和时间平均性能的总信息率。本文通过将著名的互信息最小均方误差（I-MMSE）关系扩展到有反馈和无反馈的离散时间加性白色高斯信道，引入了一种新的范式来估计和分析总信息率作为控制和滤波权衡度量。在此框架下，我们探讨了各种离散时间控制和滤波系统（如线性时不变，线性时变和非线性）的总信息率的权衡特性，并提出了一种通过最优估计来研究总信息率的替代方法。

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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An Information-Theoretic Analysis of Discrete-Time Control and Filtering Limitations by the I-MMSE Relationships

Fundamental limitations or performance tradeoffs/limits are important properties and constraints of both control and filtering systems. Among various tradeoff metrics, total information rate that characterizes the sensitivity tradeoffs and time-averaged performance of control and filtering systems was conventionally studied by using the differential entropy rate and Kolmogorov–Bode formula. In this article, by extending the famous mutual information-minimum mean-square error (I-MMSE) relationships to the discrete-time additive white Gaussian channels with and without feedback, a new paradigm is introduced to estimate and analyze total information rate as a control and filtering tradeoff metric. Under this framework, we explore the tradeoff properties of total information rate for a variety of the discrete-time control and filtering systems, e.g., linear time-invariant, linear time-varying, and nonlinear, and propose an alternative approach to investigate total information rate via optimal estimation.

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来源期刊

IEEE Transactions on Automatic Control 工程技术-工程：电子与电气

CiteScore

11.30

自引率

5.90%

发文量

824

审稿时长

9 months

期刊介绍： In the IEEE Transactions on Automatic Control, the IEEE Control Systems Society publishes high-quality papers on the theory, design, and applications of control engineering. Two types of contributions are regularly considered: 1) Papers: Presentation of significant research, development, or application of control concepts. 2) Technical Notes and Correspondence: Brief technical notes, comments on published areas or established control topics, corrections to papers and notes published in the Transactions. In addition, special papers (tutorials, surveys, and perspectives on the theory and applications of control systems topics) are solicited.