We propose novel techniques for task allocation and planning in multi-robot systems operating in uncertain environments. Task allocation is performed simultaneously with planning, which provides more detailed information about individual robot behaviour, but also exploits independence between tasks to do so efficiently. We use Markov decision processes to model robot behaviour and linear temporal logic to specify tasks and safety constraints. Building upon techniques and tools from formal verification, we show how to generate a sequence of multi-robot policies, iteratively refining them to reallocate tasks if individual robots fail, and providing probabilistic guarantees on the performance (and safe operation) of the team of robots under th...
Safe planning problem arises in many applications including autonomous driving and exploration scena...
International audienceWe consider in this paper a multi-robot planning system where robots realize a...
Purpose of Review: To effectively synthesise and analyse multi-robot behaviour, we require formal ta...
We propose novel techniques for task allocation and planning in multi-robot systems operating in unc...
Sources of temporal uncertainty affect the duration and start time of robot actions during execution...
When planning behaviors for a multi-robot system based on a Temporal Logic specification of the miss...
Multi-robot task allocation is a general approach to coordinate a team of robots to complete a set o...
Coordinating a team of robots to fulfill a common task is still a demanding problem. This is even mo...
When planning for multi-robot navigation tasks under uncertainty, plans should prevent robots from c...
This paper considers the problem of multi-robot safe mission planning in uncertain dynamic environme...
We describe a probabilistic framework for synthesizing con-trol policies for general multi-robot sys...
Completed under a Cotutelle arrangement between the University of Melbourne and University of Birmi...
We describe a probabilistic framework for synthesizing con-trol policies for general multi-robot sys...
This paper describes a framework for automatically generating optimal action-level behavior for a te...
Abstract — A task-executing robot may encounter various types of uncertainty born of sensing, actuat...
Safe planning problem arises in many applications including autonomous driving and exploration scena...
International audienceWe consider in this paper a multi-robot planning system where robots realize a...
Purpose of Review: To effectively synthesise and analyse multi-robot behaviour, we require formal ta...
We propose novel techniques for task allocation and planning in multi-robot systems operating in unc...
Sources of temporal uncertainty affect the duration and start time of robot actions during execution...
When planning behaviors for a multi-robot system based on a Temporal Logic specification of the miss...
Multi-robot task allocation is a general approach to coordinate a team of robots to complete a set o...
Coordinating a team of robots to fulfill a common task is still a demanding problem. This is even mo...
When planning for multi-robot navigation tasks under uncertainty, plans should prevent robots from c...
This paper considers the problem of multi-robot safe mission planning in uncertain dynamic environme...
We describe a probabilistic framework for synthesizing con-trol policies for general multi-robot sys...
Completed under a Cotutelle arrangement between the University of Melbourne and University of Birmi...
We describe a probabilistic framework for synthesizing con-trol policies for general multi-robot sys...
This paper describes a framework for automatically generating optimal action-level behavior for a te...
Abstract — A task-executing robot may encounter various types of uncertainty born of sensing, actuat...
Safe planning problem arises in many applications including autonomous driving and exploration scena...
International audienceWe consider in this paper a multi-robot planning system where robots realize a...
Purpose of Review: To effectively synthesise and analyse multi-robot behaviour, we require formal ta...