Quenching, aging, and reviving in coupled dynamical networks
Rhythmic behavior represents one of the most striking and ubiquitous manifestations of
functional evolution for a wide class of natural and man-made systems. The emergence of …
functional evolution for a wide class of natural and man-made systems. The emergence of …
Optoelectronic oscillators with time-delayed feedback
Time-delayed optoelectronic oscillators are at the center of a large body of scientific
literature. The complex behavior of these nonlinear oscillators has been thoroughly explored …
literature. The complex behavior of these nonlinear oscillators has been thoroughly explored …
Data-driven control of complex networks
Our ability to manipulate the behavior of complex networks depends on the design of
efficient control algorithms and, critically, on the availability of an accurate and tractable …
efficient control algorithms and, critically, on the availability of an accurate and tractable …
[图书][B] Dynamics and Bifurcation in Networks: Theory and Applications of Coupled Differential Equations
M Golubitsky, I Stewart - 2023 - SIAM
The biologist JBS Haldane, when asked what we can learn about the Creator by examining
the world, is said to have replied “an inordinate fondness for beetles”[705]. Today's …
the world, is said to have replied “an inordinate fondness for beetles”[705]. Today's …
Machine learning based on reservoir computing with time-delayed optoelectronic and photonic systems
YK Chembo - Chaos: An Interdisciplinary Journal of Nonlinear …, 2020 - pubs.aip.org
The concept of reservoir computing emerged from a specific machine learning paradigm
characterized by a three-layered architecture (input, reservoir, and output), where only the …
characterized by a three-layered architecture (input, reservoir, and output), where only the …
Does the brain behave like a (complex) network? I. Dynamics
D Papo, JM Buldú - Physics of life reviews, 2024 - Elsevier
Graph theory is now becoming a standard tool in system-level neuroscience. However,
endowing observed brain anatomy and dynamics with a complex network structure does not …
endowing observed brain anatomy and dynamics with a complex network structure does not …
Unified treatment of synchronization patterns in generalized networks with higher-order, multilayer, and temporal interactions
When describing complex interconnected systems, one often has to go beyond the standard
network description to account for generalized interactions. Here, we establish a unified …
network description to account for generalized interactions. Here, we establish a unified …
Optimizing higher-order network topology for synchronization of coupled phase oscillators
Y Tang, D Shi, L Lü - Communications Physics, 2022 - nature.com
Networks in nature have complex interactions among agents. One significant phenomenon
induced by interactions is synchronization of coupled agents, and the interactive network …
induced by interactions is synchronization of coupled agents, and the interactive network …
Dirac synchronization is rhythmic and explosive
Topological signals defined on nodes, links and higher dimensional simplices define the
dynamical state of a network or of a simplicial complex. As such, topological signals are …
dynamical state of a network or of a simplicial complex. As such, topological signals are …
Asymmetric balance in symmetry breaking
Spontaneous symmetry breaking is central to our understanding of physics and explains
many natural phenomena, from cosmic scales to subatomic particles. Its use for applications …
many natural phenomena, from cosmic scales to subatomic particles. Its use for applications …