abstract: Numerous works have addressed the control of multi-robot systems for coverage, mapping, navigation, and task allocation problems. In addition to classical microscopic approaches to multi-robot problems, which model the actions and decisions of individual robots, lately, there has been a focus on macroscopic or Eulerian approaches. In these approaches, the population of robots is represented as a continuum that evolves according to a mean-field model, which is directly designed such that the corresponding robot control policies produce target collective behaviours. This dissertation presents a control-theoretic analysis of three types of mean-field models proposed in the literature for modelling and control of large-scale mult...
abstract: In this paper, we present an approach to designing decentralized robot control policies th...
This dissertation focuses on the collaborative control of homogeneous UAV swarms. A two-level scheme...
Tasks that require parallelism, redundancy, and adaptation to dynamic, possibly hazardous environmen...
abstract: The problem of modeling and controlling the distribution of a multi-agent system has recen...
abstract: This thesis considers two problems in the control of robotic swarms. Firstly, it addresses...
Tasks that require parallelism, redundancy, and adaptation to dynamic, possibly hazardous environmen...
Optimal control of large-scale multi-agent networked systems which describe social networks, macro-e...
abstract: Swarms of low-cost, autonomous robots can potentially be used to collectively perform task...
Swarm robotics consists in using a large number of coordinated autonomous robots, or agents, to acco...
In this paper, we propose a computationally efficient, robust density control strategy for the mean-...
In this dissertation, a blob method of measuring spatial coverage by a swarm of agents is presented,...
In this article, we describe an optimal control strategy for shaping a large-scale swarm of particle...
abstract: Robotic technology is advancing to the point where it will soon be feasible to deploy mass...
Considered in this research is a framework for effective formation control of multirobot systems in ...
UnrestrictedSwarm multi-robot systems consist of groups of robots with simple interaction rules that...
abstract: In this paper, we present an approach to designing decentralized robot control policies th...
This dissertation focuses on the collaborative control of homogeneous UAV swarms. A two-level scheme...
Tasks that require parallelism, redundancy, and adaptation to dynamic, possibly hazardous environmen...
abstract: The problem of modeling and controlling the distribution of a multi-agent system has recen...
abstract: This thesis considers two problems in the control of robotic swarms. Firstly, it addresses...
Tasks that require parallelism, redundancy, and adaptation to dynamic, possibly hazardous environmen...
Optimal control of large-scale multi-agent networked systems which describe social networks, macro-e...
abstract: Swarms of low-cost, autonomous robots can potentially be used to collectively perform task...
Swarm robotics consists in using a large number of coordinated autonomous robots, or agents, to acco...
In this paper, we propose a computationally efficient, robust density control strategy for the mean-...
In this dissertation, a blob method of measuring spatial coverage by a swarm of agents is presented,...
In this article, we describe an optimal control strategy for shaping a large-scale swarm of particle...
abstract: Robotic technology is advancing to the point where it will soon be feasible to deploy mass...
Considered in this research is a framework for effective formation control of multirobot systems in ...
UnrestrictedSwarm multi-robot systems consist of groups of robots with simple interaction rules that...
abstract: In this paper, we present an approach to designing decentralized robot control policies th...
This dissertation focuses on the collaborative control of homogeneous UAV swarms. A two-level scheme...
Tasks that require parallelism, redundancy, and adaptation to dynamic, possibly hazardous environmen...