The relation between network structure and dynamics is determinant for the behavior of complex systems in numerous domains. An important long-standing problem concerns the properties of the networks that optimize the dynamics with respect to a given performance measure. Here, we show that such optimization can lead to sensitive dependence of the dynamics on the structure of the network. Specifically, using diffusively coupled systems as examples, we demonstrate that the stability of a dynamical state can exhibit sensitivity to unweighted structural perturbations (i.e., link removals and node additions) for undirected optimal networks and to weighted perturbations (i.e., small changes in link weights) for directed optimal networks. As mechan...
We investigate the effects of structural perturbations on the networks ability to synchronize. We es...
BackgroundMany studies of biochemical networks have analyzed network topology. Such work has suggest...
We study the effect of varying wiring in excitable random networks in which connection weights chang...
Large coupled networks of individual entities arise in multiple contexts in nature and engineered sy...
Synchronization is an important behavior that characterizes many natural and human made systems that...
Complex network structures appear in myriad contexts. From social networks to computer networks, pro...
Recent research in network science has shown that complex networks in diverse application areas seem...
Understanding the mutual interdependence between the behavior of dynamical processes on networks and...
In many real-world networks the ability to synchronize is a key property for its performance. Exampl...
In this Letter we study networks that have been optimized to realize a trade-off between communicati...
Understanding network robustness against failures of network units is useful for preventing large-sc...
Hidden inside the design of a living network is the key to its function: above all else, nature sear...
In many real-world networks the ability to synchronize is a key property for their performance. \u8...
Hidden inside the design of a living network is the key to its function: above all else, nature sear...
<div><p>Understanding network robustness against failures of network units is useful for preventing ...
We investigate the effects of structural perturbations on the networks ability to synchronize. We es...
BackgroundMany studies of biochemical networks have analyzed network topology. Such work has suggest...
We study the effect of varying wiring in excitable random networks in which connection weights chang...
Large coupled networks of individual entities arise in multiple contexts in nature and engineered sy...
Synchronization is an important behavior that characterizes many natural and human made systems that...
Complex network structures appear in myriad contexts. From social networks to computer networks, pro...
Recent research in network science has shown that complex networks in diverse application areas seem...
Understanding the mutual interdependence between the behavior of dynamical processes on networks and...
In many real-world networks the ability to synchronize is a key property for its performance. Exampl...
In this Letter we study networks that have been optimized to realize a trade-off between communicati...
Understanding network robustness against failures of network units is useful for preventing large-sc...
Hidden inside the design of a living network is the key to its function: above all else, nature sear...
In many real-world networks the ability to synchronize is a key property for their performance. \u8...
Hidden inside the design of a living network is the key to its function: above all else, nature sear...
<div><p>Understanding network robustness against failures of network units is useful for preventing ...
We investigate the effects of structural perturbations on the networks ability to synchronize. We es...
BackgroundMany studies of biochemical networks have analyzed network topology. Such work has suggest...
We study the effect of varying wiring in excitable random networks in which connection weights chang...