We present an efficient approach to plan action sequences for a team of robots from a single finite LTL mission specification. The resulting execution strategy is proven to solve the given mission with minimal team costs, e.g., with shortest execution time. For planning, an established graphbased search method based on the multi-objective shortest path problem is adapted to multi-robot planning and extended to support resource constraints. We further improve planning efficiency significantly for missions which consist of independent parts by using previous results regarding LTL decomposition. The efficiency and practicality of the ROS implementation of our approach is demonstrated in example scenarios.QC 20170705</p
Planning collision-free paths for multiple robots traversing a shared space is a problem that grows ...
Abstract In this paper we present a method for automatic planning of optimal paths for a group of ro...
In service robot applications, planning is often integrated with task allocation. Linear Temporal Lo...
We present an efficient approach to plan action sequences for a team of robots from a single finite ...
Generating verifiably correct execution strategies from Linear Temporal Logic (LTL) mission specific...
Abstract In this paper, we consider the automated planning of optimal paths for a robotic team satis...
In this paper a new approach to search for diverse solutions for a multi-objective problem is presen...
This paper describes a framework for automatically generating optimal action-level behavior for a te...
Robot applications are increasingly based on teams of robots that collaborate to perform a desired m...
Robots will play a crucial role in the future and need to work as a team in increasingly more comple...
Multi-robot path planning involves moving multiple robots from their unique starting positions to t...
An optimization variant of a problem of path planning for multiple robots is addressed in this work....
Multi-Agent Systems have received a tremendous amount of attention in many areas of research and ind...
In this paper we present a method for automatic planning of optimal paths for a group of robots that...
Multi-robot teams can play a crucial role in many applications such as exploration, or search and re...
Planning collision-free paths for multiple robots traversing a shared space is a problem that grows ...
Abstract In this paper we present a method for automatic planning of optimal paths for a group of ro...
In service robot applications, planning is often integrated with task allocation. Linear Temporal Lo...
We present an efficient approach to plan action sequences for a team of robots from a single finite ...
Generating verifiably correct execution strategies from Linear Temporal Logic (LTL) mission specific...
Abstract In this paper, we consider the automated planning of optimal paths for a robotic team satis...
In this paper a new approach to search for diverse solutions for a multi-objective problem is presen...
This paper describes a framework for automatically generating optimal action-level behavior for a te...
Robot applications are increasingly based on teams of robots that collaborate to perform a desired m...
Robots will play a crucial role in the future and need to work as a team in increasingly more comple...
Multi-robot path planning involves moving multiple robots from their unique starting positions to t...
An optimization variant of a problem of path planning for multiple robots is addressed in this work....
Multi-Agent Systems have received a tremendous amount of attention in many areas of research and ind...
In this paper we present a method for automatic planning of optimal paths for a group of robots that...
Multi-robot teams can play a crucial role in many applications such as exploration, or search and re...
Planning collision-free paths for multiple robots traversing a shared space is a problem that grows ...
Abstract In this paper we present a method for automatic planning of optimal paths for a group of ro...
In service robot applications, planning is often integrated with task allocation. Linear Temporal Lo...