Controlling large swarms of robotic agents presents many challenges, including, but not limited to, computational complexity due to a large number of agents, uncertainty in the functionality of each agent in the swarm, and uncertainty in the swarm’s configuration. This work generalizes the swarm state using random finite set (RFS) theory and solves a centralized control problem with a quasi-Newton optimization through the use of model predictive control (MPC) to overcome the aforementioned challenges. This work uses the RFS formulation to control the distribution of agents assuming an unknown or unspecified number of agents. Computationally efficient solutions are also obtained via theMPCversion of the iterative linear quadratic regulator (...
This article proposes an adaptive robust formation control scheme for the connected and autonomous v...
In this paper, we propose a computationally efficient, robust density control strategy for the mean-...
This paper introduces a probabilistic guidance approach for the coordination of swarms of autonomous...
IEEE Controlling large swarms of robotic agents presents many challenges including, but not limited ...
<p>Swarm robotics and distributed control offer the promise of enhanced performance and robustness r...
We present a distributed control algorithm simultaneously solving both the stochastic target assignm...
Thesis (Ph.D.)--University of Washington, 2017-08The control of systems with autonomous mobile agent...
We present a novel method for guiding a large-scale swarm of autonomous agents into a desired format...
UnrestrictedSwarm multi-robot systems consist of groups of robots with simple interaction rules that...
This paper presents a distributed, guidance and control algorithm for reconfiguring swarms composed ...
textThis report describes a method to control the density distribution of a large number of autonomo...
Abstract — Representation of a swarm of independent robotic agents under graph-theoretic constructs ...
Flocking and swarming are inspired by nature. Swarming formation involves a large number of agents o...
Abstract This paper presents a Markov chain based approach for the probabilistic density control of ...
In the last ten years, there has been significant interest in applying a swarming paradigm towards t...
This article proposes an adaptive robust formation control scheme for the connected and autonomous v...
In this paper, we propose a computationally efficient, robust density control strategy for the mean-...
This paper introduces a probabilistic guidance approach for the coordination of swarms of autonomous...
IEEE Controlling large swarms of robotic agents presents many challenges including, but not limited ...
<p>Swarm robotics and distributed control offer the promise of enhanced performance and robustness r...
We present a distributed control algorithm simultaneously solving both the stochastic target assignm...
Thesis (Ph.D.)--University of Washington, 2017-08The control of systems with autonomous mobile agent...
We present a novel method for guiding a large-scale swarm of autonomous agents into a desired format...
UnrestrictedSwarm multi-robot systems consist of groups of robots with simple interaction rules that...
This paper presents a distributed, guidance and control algorithm for reconfiguring swarms composed ...
textThis report describes a method to control the density distribution of a large number of autonomo...
Abstract — Representation of a swarm of independent robotic agents under graph-theoretic constructs ...
Flocking and swarming are inspired by nature. Swarming formation involves a large number of agents o...
Abstract This paper presents a Markov chain based approach for the probabilistic density control of ...
In the last ten years, there has been significant interest in applying a swarming paradigm towards t...
This article proposes an adaptive robust formation control scheme for the connected and autonomous v...
In this paper, we propose a computationally efficient, robust density control strategy for the mean-...
This paper introduces a probabilistic guidance approach for the coordination of swarms of autonomous...