1 code implementation • 18 Oct 2022 • Yuanzhao Zhang, Sean P. Cornelius
Reservoir Computing (RC) is a simple and efficient model-free framework for forecasting the behavior of nonlinear dynamical systems from data.
1 code implementation • 1 Oct 2020 • Yuanzhao Zhang, Vito Latora, Adilson E. Motter
When describing complex interconnected systems, one often has to go beyond the standard network description to account for generalized interactions.
Adaptation and Self-Organizing Systems Disordered Systems and Neural Networks
no code implementations • 28 Mar 2020 • Albert Buchard, Baptiste Bouvier, Giulia Prando, Rory Beard, Michail Livieratos, Dan Busbridge, Daniel Thompson, Jonathan Richens, Yuanzhao Zhang, Adam Baker, Yura Perov, Kostis Gourgoulias, Saurabh Johri
We show that this approach is on a par with human performance, yielding safe triage decisions in 94% of cases, and matching expert decisions in 85% of cases.
1 code implementation • 11 Mar 2020 • Yuanzhao Zhang, Adilson E. Motter
The field of network synchronization has seen tremendous growth following the introduction of the master stability function (MSF) formalism, which enables the efficient stability analysis of synchronization in large oscillator networks.
Adaptation and Self-Organizing Systems Disordered Systems and Neural Networks Dynamical Systems Chaotic Dynamics
1 code implementation • 18 Nov 2019 • Yuanzhao Zhang, Zachary G. Nicolaou, Joseph D. Hart, Rajarshi Roy, Adilson E. Motter
We report on a new type of chimera state that attracts almost all initial conditions and exhibits power-law switching behavior in networks of coupled oscillators.
Disordered Systems and Neural Networks Dynamical Systems Adaptation and Self-Organizing Systems Chaotic Dynamics Pattern Formation and Solitons
1 code implementation • 8 Feb 2019 • Joseph D. Hart, Yuanzhao Zhang, Rajarshi Roy, Adilson E. Motter
Symmetries are ubiquitous in network systems and have profound impacts on the observable dynamics.
Adaptation and Self-Organizing Systems Disordered Systems and Neural Networks Chaotic Dynamics Pattern Formation and Solitons
no code implementations • 22 May 2017 • Yuanzhao Zhang, Takashi Nishikawa, Adilson E. Motter
A scenario has recently been reported in which in order to stabilize complete synchronization of an oscillator network---a symmetric state---the symmetry of the system itself has to be broken by making the oscillators nonidentical.
Adaptation and Self-Organizing Systems Disordered Systems and Neural Networks Chaotic Dynamics Pattern Formation and Solitons