Multi-phase locking value: A generalized method for determining instantaneous multi-frequency phase coupling

Authors

Bhavya Vasudeva, Indian Statistical Institute, Kolkata
Runfeng Tian, Gallogly College of Engineering
Dee H. Wu, University of Oklahoma College of Medicine
Shirley A. James, University of Oklahoma Health Sciences Center
Hazem H. Refai, The University of Oklahoma
Lei Ding, Gallogly College of Engineering
Fei He, Coventry University
Yuan Yang, Gallogly College of Engineering

Article Type

Research Article

Publication Title

Biomedical Signal Processing and Control

Abstract

Background: Many physical, biological and neural systems behave as coupled oscillators, with characteristic phase coupling across different frequencies. Methods such as n:m phase locking value (where two coupling frequencies are linked as: mf1=nf2) and bi-phase locking value have previously been proposed to quantify phase coupling between two resonant frequencies (e.g. f,2f/3) and across three frequencies (e.g. f1,f2,f1+f2), respectively. However, the existing phase coupling metrics have their limitations and limited applications. They cannot be used to detect or quantify phase coupling across multiple frequencies (e.g. f1,f2,f3,f4,f1+f2+f3-f4), or coupling that involves non-integer multiples of the frequencies (e.g. f1,f2,2f1/3+f2/3). New methods: To address the gap, this paper proposes a generalized approach, named multi-phase locking value (M-PLV), for the quantification of various types of instantaneous multi-frequency phase coupling. Different from most instantaneous phase coupling metrics that measure the simultaneous phase coupling, the proposed M-PLV method also allows the detection of delayed phase coupling and the associated time lag between coupled oscillators. Results: The M-PLV has been tested on cases where synthetic coupled signals are generated using white Gaussian signals, and a system comprised of multiple coupled Rössler oscillators, as well as a human subject dataset. Results indicate that the M-PLV can provide a reliable estimation of the time window and frequency combination where the phase coupling is significant, as well as a precise determination of time lag in the case of delayed coupling. This method has the potential to become a powerful new tool for exploring phase coupling in complex nonlinear dynamic systems.

DOI

10.1016/j.bspc.2022.103492

Publication Date

4-1-2022

Comments

Open Access, Bronze, Green

Recommended Citation

Vasudeva, Bhavya; Tian, Runfeng; Wu, Dee H.; James, Shirley A.; Refai, Hazem H.; Ding, Lei; He, Fei; and Yang, Yuan, "Multi-phase locking value: A generalized method for determining instantaneous multi-frequency phase coupling" (2022). Journal Articles. 3189.
https://digitalcommons.isical.ac.in/journal-articles/3189