线性系统的简单神经形态控制器分析：混合系统视角

arXiv - EE - Systems and Control Pub Date : 2024-09-10 DOI:arxiv-2409.06353

E. Petri, K. J. A. Scheres, E. Steur, W. P. M. H. Heemels

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摘要

在本文中，我们分析了一种神经形态控制器，其灵感来源于单输入单输出线性时变系统闭环中的 "渗漏整合与发射神经元模型"。控制器由两个类似神经元的变量组成，每当其中一个变量达到阈值时，就会产生一个尖峰控制输入。只有在尖峰时刻，控制输入才与零不同，因此，在两个尖峰时刻之间，系统在开环中演化。利用 "集成-发射 "神经元动力学的混合性质，我们提出了一个混合建模框架，用于设计和分析这种新控制器。在单态线性时间不变植物的特殊情况下，我们证明了闭环系统的实际稳定性，确保了尖峰之间存在严格的正驻留时间，并将这些特性与神经元中的参数联系起来。我们将通过一个数值示例来说明这些结果。

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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Analysis of a Simple Neuromorphic Controller for Linear Systems: A Hybrid Systems Perspective

In this paper we analyze a neuromorphic controller, inspired by the leaky integrate-and-fire neuronal model, in closed-loop with a single-input single-output linear time-invariant system. The controller consists of two neuron-like variables and generates a spiking control input whenever one of these variables reaches a threshold. The control input is different from zero only at the spiking instants and, hence, between two spiking times the system evolves in open-loop. Exploiting the hybrid nature of the integrate-and-fire neuronal dynamics, we present a hybrid modeling framework to design and analyze this new controller. In the particular case of single-state linear time-invariant plants, we prove a practical stability property for the closed-loop system, we ensure the existence of a strictly positive dwell-time between spikes, and we relate these properties to the parameters in the neurons. The results are illustrated in a numerical example.

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arXiv - EE - Systems and Control

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