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Central pattern generator based on self-sustained oscillator coupled to a chain of oscillatory circuits

Semen Kurkin, D. D. Kulminskiy, В. И. Пономаренко, М. Д. Прохоров, Sergey Astakhov, Alexander E. Hramov

发表年份
2022
引用次数
22

摘要

We have proposed and studied both numerically and experimentally a multistable system based on a self-sustained Van der Pol oscillator coupled to passive oscillatory circuits. The number of passive oscillators determines the number of multistable oscillatory regimes coexisting in the proposed system. It is shown that our system can be used in robotics applications as a simple model for a central pattern generator (CPG). In this case, the amplitude and phase relations between the active and passive oscillators control a gait, which can be adjusted by changing the system control parameters. Variation of the active oscillator's natural frequency leads to hard switching between the regimes characterized by different phase shifts between the oscillators. In contrast, the external forcing can change the frequency and amplitudes of oscillations, preserving the phase shifts. Therefore, the frequency of the external signal can serve as a control parameter of the model regime and realize a feedback in the proposed CPG depending on the environmental conditions. In particular, it allows one to switch the regime and change the velocity of the robot's gate and tune the gait to the environment. We have also shown that the studied oscillatory regimes in the proposed system are robust and not affected by external noise or fluctuations of the system parameters. Moreover, using the proposed scheme, we simulated the type of bipedal locomotion, including walking and running.

关键词

Central pattern generatorControl theory (sociology)Van der Pol oscillatorAmplitudeElectronic circuitNoise (video)GaitPhase (matter)Generator (circuit theory)SIGNAL (programming language)

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