Distributed Network of Coupled Oscillators With Multiple Limit Cycles
成果类型:
Article
署名作者:
Ren, Kewei; Iwasaki, Tetsuya
署名单位:
University of California System; University of California Los Angeles
刊物名称:
IEEE TRANSACTIONS ON AUTOMATIC CONTROL
ISSN/ISSBN:
0018-9286
DOI:
10.1109/TAC.2023.3334081
发表日期:
2024
页码:
3112-3127
关键词:
oscillators
Limit-cycles
Orbits
Stability criteria
Eigenvalues and eigenfunctions
Couplings
shape
Distributed network
gait generation
limit cycles
multistability
nonlinear oscillator
摘要:
When designing feedback controllers to achieve periodic movements, a reference trajectory generator for oscillations is an important component. Using autonomous oscillators to this effect, rather than directly crafting periodic signals, may allow for systematic coordination in a distributed manner and storage of multiple motion patterns within the nonlinear dynamics, with potential extensions to adaptive mode switching through sensory feedback. This article proposes a method for designing a distributed network that possesses multiple stable limit cycles from which various output patterns are generated with prescribed frequency, amplitude, temporal shapes, and phase coordination. In particular, we adopt, as the basic dynamical unit, a simple nonlinear oscillator with a scalar complex state variable, and derive conditions for their distributed interconnections to result in a network that embeds desired periodic solutions with orbital stability. We show that the frequencies and phases of target oscillations are encoded into the network connectivity matrix as its eigenvalues and eigenvectors, respectively. Various design examples will illustrate the proposed method, including generation of human gaits for walking and running.
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