Abstract — A decentralized controller is presented that causes a network of robots to converge to an optimal sensing configu-ration, while simultaneously learning the distribution of sensory information in the environment. A consensus (or flocking) term is introduced in the adaptation law to allow sharing of parameters among neighbors, greatly increasing parame-ter convergence rates. Convergence and consensus is proven using a Lyapunov-type proof. The controller with parameter consensus is shown to perform better than the basic controller in numerical simulations. I
We use a high-gain methodology to construct linear decentralized controllers for consensus, in netwo...
In this paper we present an information-theoretic approach to distributively control multiple robots...
An adaptive consensus algorithm is proposed for a class of nonlinear multiagent systems with complet...
Abstract — A decentralized, adaptive control law is presented to drive a network of mobile robots to...
A team of coordinating mobile robots equipped with operation specific sensors canperform different c...
International audienceIn this paper we solve the full-consensus problem for multiple nonholonomic ve...
<p>Swarm robotics and distributed control offer the promise of enhanced performance and robustness r...
This paper studies the bipartite consensus problem of a swarm of robots whose dynamics are formulate...
In this paper, we investigate the output consensus problem of tracking a desired trajectory for a cl...
Due to a lot of attention for multi-agent systems in recent years, the consensus algorithm has gaine...
Abstract — Representation of a swarm of independent robotic agents under graph-theoretic constructs ...
This dissertation focuses on distributed agreement strategies for multi-robot systems. First of all,...
International audienceThis paper presents a novel decentralized consensus-based formation controller...
In this paper, we propose an algorithm that combines actor-critic based off-policy method with conse...
This paper studies the problem of composite synchronization and learning of multiple coordinated rob...
We use a high-gain methodology to construct linear decentralized controllers for consensus, in netwo...
In this paper we present an information-theoretic approach to distributively control multiple robots...
An adaptive consensus algorithm is proposed for a class of nonlinear multiagent systems with complet...
Abstract — A decentralized, adaptive control law is presented to drive a network of mobile robots to...
A team of coordinating mobile robots equipped with operation specific sensors canperform different c...
International audienceIn this paper we solve the full-consensus problem for multiple nonholonomic ve...
<p>Swarm robotics and distributed control offer the promise of enhanced performance and robustness r...
This paper studies the bipartite consensus problem of a swarm of robots whose dynamics are formulate...
In this paper, we investigate the output consensus problem of tracking a desired trajectory for a cl...
Due to a lot of attention for multi-agent systems in recent years, the consensus algorithm has gaine...
Abstract — Representation of a swarm of independent robotic agents under graph-theoretic constructs ...
This dissertation focuses on distributed agreement strategies for multi-robot systems. First of all,...
International audienceThis paper presents a novel decentralized consensus-based formation controller...
In this paper, we propose an algorithm that combines actor-critic based off-policy method with conse...
This paper studies the problem of composite synchronization and learning of multiple coordinated rob...
We use a high-gain methodology to construct linear decentralized controllers for consensus, in netwo...
In this paper we present an information-theoretic approach to distributively control multiple robots...
An adaptive consensus algorithm is proposed for a class of nonlinear multiagent systems with complet...