Optimal phase-selective entrainment of electrochemical oscillators with different phase response curves

Author:

Luis Ocampo-Espindola Jorge1ORCID,Singhal Bharat2ORCID,Li Jr-Shin2ORCID,Kiss István Z.1ORCID

Affiliation:

1. Department of Chemistry, Saint Louis University 1 , St. Louis, Missouri 63103, USA

2. Department of Electrical & Systems Engineering, Washington University in St Louis 2 , St Louis, Missouri 63130, USA

Abstract

We investigate the entrainment of electrochemical oscillators with different phase response curves (PRCs) using a global signal: the goal is to achieve the desired phase configuration using a minimum-power waveform. Establishing the desired phase relationships in a highly nonlinear networked system exhibiting significant heterogeneities, such as different conditions or parameters for the oscillators, presents a considerable challenge because different units respond differently to the common global entraining signal. In this work, we apply an optimal phase-selective entrainment technique in both a kinetic model and experiments involving electrochemical oscillators in achieving phase synchronized states. We estimate the PRCs of the oscillators at different circuit potentials and external resistance, and entrain pairs and small sets of four oscillators in various phase configurations. We show that for small PRC variations, phase assignment can be achieved using an averaged PRC in the control design. However, when the PRCs are sufficiently different, individual PRCs are needed to entrain the system with the expected phase relationships. The results show that oscillator assemblies with heterogeneous PRCs can be effectively entrained to desired phase configurations in practical settings. These findings open new avenues to applications in biological and engineered oscillator systems where synchronization patterns are essential for system performance.

Funder

National Science Foundation

Air Force Office of Scientific Research

Publisher

AIP Publishing

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