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Autores principales: Peng, Xiaoyu, Ru, Xi, Li, Zhongze, Zhang, Jianxin, Chen, Xinghua, Liu, Feng
Formato: Preprint
Publicado: 2026
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Acceso en línea:https://arxiv.org/abs/2601.10475
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author Peng, Xiaoyu
Ru, Xi
Li, Zhongze
Zhang, Jianxin
Chen, Xinghua
Liu, Feng
author_facet Peng, Xiaoyu
Ru, Xi
Li, Zhongze
Zhang, Jianxin
Chen, Xinghua
Liu, Feng
contents This paper presents a geometric framework for analyzing output-feedback and input-feedforward passivization of linear time-invariant systems. We reveal that a system is passivizable with a given passivity index when the Nyquist plot for SISO systems or the Rayleigh quotient of the transfer function for MIMO systems lies within a specific, index-dependent region in the complex plane, termed the positive damping region. The criteria enable a convenient graphic tool for analyzing the passivization, the associated frequency bands, the maximum achievable passivity index, and the waterbed effect between them. Additionally, the tool can be encoded into classical tools such as the Nyquist plot, the Nichols plot, and the generalized KYP lemma to aid control design. Finally, we demonstrate its application in passivity-based power system stability analysis and discuss its implications for electrical engineers regarding device controller design trade-offs.
format Preprint
id arxiv_https___arxiv_org_abs_2601_10475
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Positive Damping Region: A Graphic Tool for Passivization Analysis with Passivity Index
Peng, Xiaoyu
Ru, Xi
Li, Zhongze
Zhang, Jianxin
Chen, Xinghua
Liu, Feng
Optimization and Control
This paper presents a geometric framework for analyzing output-feedback and input-feedforward passivization of linear time-invariant systems. We reveal that a system is passivizable with a given passivity index when the Nyquist plot for SISO systems or the Rayleigh quotient of the transfer function for MIMO systems lies within a specific, index-dependent region in the complex plane, termed the positive damping region. The criteria enable a convenient graphic tool for analyzing the passivization, the associated frequency bands, the maximum achievable passivity index, and the waterbed effect between them. Additionally, the tool can be encoded into classical tools such as the Nyquist plot, the Nichols plot, and the generalized KYP lemma to aid control design. Finally, we demonstrate its application in passivity-based power system stability analysis and discuss its implications for electrical engineers regarding device controller design trade-offs.
title Positive Damping Region: A Graphic Tool for Passivization Analysis with Passivity Index
topic Optimization and Control
url https://arxiv.org/abs/2601.10475