Purpose of Review: To effectively synthesise and analyse multi-robot behaviour, we require formal task-level models which accurately capture multi-robot execution. In this paper, we review modelling formalisms for multi-robot systems under uncertainty, and discuss how they can be used for planning, reinforcement learning, model checking, and simulation.Recent Findings: Recent work has investigated models which more accurately capture multi-robot execution by considering different forms of uncertainty, such as temporal uncertainty and partial observability, and modelling the effects of robot interactions on action execution. Other strands of work have presented approaches for reducing the size of multi-robot models to admit more efficient so...
© 2015 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Certain robot missions need to perform predictably in a physical environment that may only be poorly...
This thesis experimentally addresses the issue of planning under uncertainty in robotics, with refer...
Purpose of Review: To effectively synthesise and analyse multi-robot behaviour, we require formal ta...
Sources of temporal uncertainty affect the duration and start time of robot actions during execution...
We propose novel techniques for task allocation and planning in multi-robot systems operating in unc...
Formal models of multi-robot behaviour are fundamental to planning, simulation, and model checking t...
Abstract — A task-executing robot may encounter various types of uncertainty born of sensing, actuat...
Incorrect operation of a multi-robot system (MRS) may not only lead to unsatisfactory results, but i...
Robots must plan and execute tasks in the presence of uncertainty. Uncertainty arises from sensing ...
Currently, there is a lack of developer-friendly software tools to formally address multi-robot coor...
Coordinating a team of robots to fulfill a common task is still a demanding problem. This is even mo...
Redundant robots motion planning and control in uncertain task is addressed by model-based approach....
When planning for multi-robot navigation tasks under uncertainty, plans should prevent robots from c...
The effective use of autonomous robot teams in highly-critical missions depends on being able to est...
© 2015 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Certain robot missions need to perform predictably in a physical environment that may only be poorly...
This thesis experimentally addresses the issue of planning under uncertainty in robotics, with refer...
Purpose of Review: To effectively synthesise and analyse multi-robot behaviour, we require formal ta...
Sources of temporal uncertainty affect the duration and start time of robot actions during execution...
We propose novel techniques for task allocation and planning in multi-robot systems operating in unc...
Formal models of multi-robot behaviour are fundamental to planning, simulation, and model checking t...
Abstract — A task-executing robot may encounter various types of uncertainty born of sensing, actuat...
Incorrect operation of a multi-robot system (MRS) may not only lead to unsatisfactory results, but i...
Robots must plan and execute tasks in the presence of uncertainty. Uncertainty arises from sensing ...
Currently, there is a lack of developer-friendly software tools to formally address multi-robot coor...
Coordinating a team of robots to fulfill a common task is still a demanding problem. This is even mo...
Redundant robots motion planning and control in uncertain task is addressed by model-based approach....
When planning for multi-robot navigation tasks under uncertainty, plans should prevent robots from c...
The effective use of autonomous robot teams in highly-critical missions depends on being able to est...
© 2015 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Certain robot missions need to perform predictably in a physical environment that may only be poorly...
This thesis experimentally addresses the issue of planning under uncertainty in robotics, with refer...