International audienceWhen a group of heterogeneous node dynamics are diffusively coupled with a high coupling gain, the group exhibits a collective emergent behavior which is governed by a simple algebraic average of the node dynamics called the blended dynamics. This finding has been utilized for designing heterogeneous multi-agent systems by building the desired blended dynamics first and then splitting it into the node dynamics. However, to compute the magnitude of the coupling gain, each agent needs to know global information such as the number of participating nodes, the graph structure, and so on, which prevents a fully decentralized design of the node dynamics in conjunction with the coupling laws. To resolve this issue, the idea of...
Time-varying edge weights represent dynamical interactions between any two nodes in multi-agent syst...
Diffusively coupled networks, in which different components of a network adjust their behavior accor...
International audienceIn this work, we propose an emergent dynamics based tool to approximate the sy...
In this paper, we introduce a nonlinear time-varying coupling law, which can be designed in a fully ...
In this paper, we introduce a nonlinear time-varying coupling law, which can be designed in a fully ...
In this paper, we introduce a nonlinear time-varying coupling law, which can be designed in a fully ...
A new approach to distributed consensus optimization is studied in this paper. The cost function to ...
The Authors The behavior of heterogeneous multi-agent systems is studied when the coupling matrices ...
This paper investigates a new class of linear multi-agent systems, in which nodes are coupled by dyn...
In this paper, the synchronization of heterogeneous agents interacting over a dynamical network is s...
This paper investigates a new class of linear multi-agent systems, in which nodes are coupled by dyn...
In this paper, a unified design procedure is given for output synchronization of heterogeneous multi...
Practical synchronization of the heterogeneous multi-agent system is studied in this paper. In parti...
This article deals with the synchronization of heterogeneous multi-agent systems. A simple distribut...
In this thesis, we investigate linearly coupled dynamic networks made up of identical oscillators. W...
Time-varying edge weights represent dynamical interactions between any two nodes in multi-agent syst...
Diffusively coupled networks, in which different components of a network adjust their behavior accor...
International audienceIn this work, we propose an emergent dynamics based tool to approximate the sy...
In this paper, we introduce a nonlinear time-varying coupling law, which can be designed in a fully ...
In this paper, we introduce a nonlinear time-varying coupling law, which can be designed in a fully ...
In this paper, we introduce a nonlinear time-varying coupling law, which can be designed in a fully ...
A new approach to distributed consensus optimization is studied in this paper. The cost function to ...
The Authors The behavior of heterogeneous multi-agent systems is studied when the coupling matrices ...
This paper investigates a new class of linear multi-agent systems, in which nodes are coupled by dyn...
In this paper, the synchronization of heterogeneous agents interacting over a dynamical network is s...
This paper investigates a new class of linear multi-agent systems, in which nodes are coupled by dyn...
In this paper, a unified design procedure is given for output synchronization of heterogeneous multi...
Practical synchronization of the heterogeneous multi-agent system is studied in this paper. In parti...
This article deals with the synchronization of heterogeneous multi-agent systems. A simple distribut...
In this thesis, we investigate linearly coupled dynamic networks made up of identical oscillators. W...
Time-varying edge weights represent dynamical interactions between any two nodes in multi-agent syst...
Diffusively coupled networks, in which different components of a network adjust their behavior accor...
International audienceIn this work, we propose an emergent dynamics based tool to approximate the sy...