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Philip T Clemson

Showing results (1-10 of 5) with videos related to

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Entropy (Basel, Switzerland)|June 26, 2026
Cardiorespiratory Dynamics as a Non-Autonomous System of Coupled Oscillators with Time-Varying Frequency ModulationHannah Brimble, Philip T Clemson, Aneta Stefanovska
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|March 4, 2014
Chronotaxic systems with separable amplitude and phase dynamicsYevhen F Suprunenko, Philip T Clemson, Aneta Stefanovska
Physical Review Letters|July 30, 2013
Chronotaxic systems: a new class of self-sustained nonautonomous oscillatorsYevhen F Suprunenko, Philip T Clemson, Aneta Stefanovska
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|April 16, 2014
Inverse approach to chronotaxic systems for single-variable time seriesPhilip T Clemson, Yevhen F Suprunenko, Tomislav Stankovski, et al.
Frontiers in Network Physiology|March 17, 2023
Beyond the Baroreflex: A New Measure of Autonomic Regulation Based on the Time-Frequency Assessment of Variability, Phase Coherence and CouplingsPhilip T Clemson, Jeffrey B Hoag, William H Cooke, et al.
Pageof 1

Showing results (1-10 of 5) with videos related to

Sort By:
Pageof 1
Entropy (Basel, Switzerland)|June 26, 2026
Cardiorespiratory Dynamics as a Non-Autonomous System of Coupled Oscillators with Time-Varying Frequency ModulationHannah Brimble, Philip T Clemson, Aneta Stefanovska
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|March 4, 2014
Chronotaxic systems with separable amplitude and phase dynamicsYevhen F Suprunenko, Philip T Clemson, Aneta Stefanovska
Physical Review Letters|July 30, 2013
Chronotaxic systems: a new class of self-sustained nonautonomous oscillatorsYevhen F Suprunenko, Philip T Clemson, Aneta Stefanovska
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|April 16, 2014
Inverse approach to chronotaxic systems for single-variable time seriesPhilip T Clemson, Yevhen F Suprunenko, Tomislav Stankovski, et al.
Frontiers in Network Physiology|March 17, 2023
Beyond the Baroreflex: A New Measure of Autonomic Regulation Based on the Time-Frequency Assessment of Variability, Phase Coherence and CouplingsPhilip T Clemson, Jeffrey B Hoag, William H Cooke, et al.
Pageof 1