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Main Authors: Medvedeva, Taisia, Franci, Alessio, Castaños, Fernando
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.10203
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author Medvedeva, Taisia
Franci, Alessio
Castaños, Fernando
author_facet Medvedeva, Taisia
Franci, Alessio
Castaños, Fernando
contents Neuromorphic control is receiving growing attention due to the multifaceted advantages it brings over more classical control approaches, including: sparse and on-demand sensing, information transmission, and actuation; energy-efficient designs and realizations in neuromorphic hardware; event-based signal processing and control signal computation. However, a general control-theoretical formalization of what "neuromorphic control systems" are and how we can rigorously analyze, design, and control them is still largely missing. In this note, we suggest a possible path toward formalizing neuromorphic control systems. We apply the proposed framework to a rhythmic control case study and rigorously show how it has the potential to make neuromorphic control systems analysis and design amenable to mature control theoretical approaches like describing function analysis and harmonic balance, fast-slow analysis, discrete and hybrid systems, and robust optimization.
format Preprint
id arxiv_https___arxiv_org_abs_2506_10203
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Formalizing Neuromorphic Control Systems: A General Proposal and A Rhythmic Case Study
Medvedeva, Taisia
Franci, Alessio
Castaños, Fernando
Systems and Control
Optimization and Control
Neuromorphic control is receiving growing attention due to the multifaceted advantages it brings over more classical control approaches, including: sparse and on-demand sensing, information transmission, and actuation; energy-efficient designs and realizations in neuromorphic hardware; event-based signal processing and control signal computation. However, a general control-theoretical formalization of what "neuromorphic control systems" are and how we can rigorously analyze, design, and control them is still largely missing. In this note, we suggest a possible path toward formalizing neuromorphic control systems. We apply the proposed framework to a rhythmic control case study and rigorously show how it has the potential to make neuromorphic control systems analysis and design amenable to mature control theoretical approaches like describing function analysis and harmonic balance, fast-slow analysis, discrete and hybrid systems, and robust optimization.
title Formalizing Neuromorphic Control Systems: A General Proposal and A Rhythmic Case Study
topic Systems and Control
Optimization and Control
url https://arxiv.org/abs/2506.10203