Add to ORKGWe address the problem of planning collision-free paths for multiple agents using optimization methods known as proximal algorithms. Recently this approach was explored in Bento et al. (2013), which demonstrated its ease of parallelization and decentralization, the speed with which the algorithms generate good quality solutions, and its ability to incorporate different proximal operators, each ensuring that paths satisfy a desired property. Unfortunately, the operators derived only apply to paths in 2D and require that any intermediate waypoints we might want agents to follow be preassigned to specific agents, limiting their range of applicability. In this paper we resolve these limitations. We introduce new operators to deal with agents mo...
Recent work in multi-agent path planning has provided a number of optimal and suboptimal solvers tha...
Multi-agent pathfinding is a challenging combinatorial problem that involves multiple agents moving ...
Multi-Agent Path Planning (MAPP) in discrete space requires finding a collision-free path for each a...
We address the problem of planning collision-free paths for multiple agents using optimization metho...
Abstract: It is well known that mathematical solutions for multi-agent planning problems are very di...
In this paper we focus on the optimal multi-agent path planning, which is an NP-complete problem. To...
Abstract. Animating goal-driven agents in an environment with obstacles is a time consuming process,...
Multi-Agent Path Planning is the problem of finding routes between pairs of start and destination ve...
The problem of finding conflict-free trajectories for multiple agents of identical circular shape, o...
In this paper, we consider multi-agent path planning on graphs.In particular, we consider the multi-...
Optimal solutions for multi-agent pathfinding problems are often too expensive to compute. For this ...
Avoiding collisions is one of the vital tasks for systems of au-tonomous mobile agents. We focus on ...
In the field of cooperative multi-agent pathfinding (MAPF) the optimal set of non-conflicting paths ...
Multi-agent pathfinding is an important challenge that relates to combinatorial search and has many ...
We present a scalable and effective multi-agent safe motion planner that enables a group of agents t...
Recent work in multi-agent path planning has provided a number of optimal and suboptimal solvers tha...
Multi-agent pathfinding is a challenging combinatorial problem that involves multiple agents moving ...
Multi-Agent Path Planning (MAPP) in discrete space requires finding a collision-free path for each a...
We address the problem of planning collision-free paths for multiple agents using optimization metho...
Abstract: It is well known that mathematical solutions for multi-agent planning problems are very di...
In this paper we focus on the optimal multi-agent path planning, which is an NP-complete problem. To...
Abstract. Animating goal-driven agents in an environment with obstacles is a time consuming process,...
Multi-Agent Path Planning is the problem of finding routes between pairs of start and destination ve...
The problem of finding conflict-free trajectories for multiple agents of identical circular shape, o...
In this paper, we consider multi-agent path planning on graphs.In particular, we consider the multi-...
Optimal solutions for multi-agent pathfinding problems are often too expensive to compute. For this ...
Avoiding collisions is one of the vital tasks for systems of au-tonomous mobile agents. We focus on ...
In the field of cooperative multi-agent pathfinding (MAPF) the optimal set of non-conflicting paths ...
Multi-agent pathfinding is an important challenge that relates to combinatorial search and has many ...
We present a scalable and effective multi-agent safe motion planner that enables a group of agents t...
Recent work in multi-agent path planning has provided a number of optimal and suboptimal solvers tha...
Multi-agent pathfinding is a challenging combinatorial problem that involves multiple agents moving ...
Multi-Agent Path Planning (MAPP) in discrete space requires finding a collision-free path for each a...