A tunable mixed feedback oscillator

Che, Weiming; Forni, Fulvio

doi:10.48550/arxiv.2011.08564

2020

DOI: 10.48550/arxiv.2011.08564

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A tunable mixed feedback oscillator

Weiming Che

Fulvio Forni

Abstract: The interplay of positive and negative feedback loops on different time scales appears to be a fundamental mechanisms for robust and tunable oscillations in both biological systems and electro-mechanical systems. We develop a detailed analysis of a basic three dimensional Lure model to show how controlled oscillations arise from the tuning of positive and negative feedback strengths. Our analysis is based on dominance theory and confirms, from a system-theoretic perspective, that the mixed feedback is a fundam… Show more

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2021

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Cited by 2 publications

References 26 publications

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Shaping oscillations via mixed feedback

Che¹,

Forni²

2021

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We study the problem of controlling oscillations in closed loop by combining positive and negative feedback in a mixed configuration. We develop a complete design procedure to set the relative strength of the two feedback loops to achieve steady oscillations. The proposed design takes advantage of dominance theory and adopts classical harmonic balance and fast/slow analysis to regulate the frequency of oscillations. The design is illustrated on a simple two-mass system, a setting that reveals the potential of the approach for locomotion, mimicking approaches based on central pattern generators.W. Che is supported by CSC Cambridge Scholarship. W. Che and F.

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Shaping oscillations via mixed feedback

Che¹,

Forni²

2021

Preprint

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Dominant Mixed Feedback Design for Stable Oscillations

Che

Forni

2021

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We present a design framework to induce stable oscillations through mixed feedback control. We provide conditions on the feedback gain and on the balance between positive and negative feedback contributions to guarantee robust oscillations. Using linear matrix inequalities, we later derive a systematic design for robustness to bounded dynamic uncertainties and for passive interconnections. The results of the paper provide a systemtheoretic justification to several observations from system biology and neuroscience pointing at the mixed feedback as a fundamental enabler for robust oscillations. Our results are illustrated through a distributed electrical circuit mimicking (simplified) neural dynamics.

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A tunable mixed feedback oscillator

Cited by 2 publications

References 26 publications

Shaping oscillations via mixed feedback

Shaping oscillations via mixed feedback

Dominant Mixed Feedback Design for Stable Oscillations

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