Robotic manipulators are essential for future autonomous systems, yet limited trust in their autonomy has confined them to rigid, task-specific systems. The intricate configuration space of manipulators, coupled with the challenges of obstacle avoidance and constraint satisfaction, often makes motion planning the bottleneck for achieving reliable and adaptable autonomy. Recently, a class of constant-time motion planners (CTMP) was introduced. These planners employ a preprocessing phase to compute data structures that enable online planning provably guarantee the ability to generate motion plans, potentially sub-optimal, within a user defined time bound. This framework has been demonstrated to be effective in a number of time-critical tasks....
In unstructured environments in people’s homes and workspaces, robots executing a task may need to a...
We are investigating the use of planning in multi-robot, real-time, dynamic environments. Each indiv...
SM thesisAutonomous robots are being considered for increasingly capable roles in our society, such ...
Anytime algorithms are a class of algorithm which are interruptible and whose solution quality impro...
International audienceIn this paper we propose an anytime plan-ning/replanning algorithm aimed at ge...
The study of combined task and motion planning has mostly been concerned with feasibility planning f...
Agents operating in the real world often have limited time available for planning their next actions...
Anytime algorithms are algorithms whose quality of results improves gradually as computation time in...
Robots are being employed not only for assembly tasks, but also in domains like healthcare, mining, ...
Navigating uncontrolled dynamic environments is a major challenge in robotics. Success requires solv...
Autonomous robotic systems are becoming widespread in the form of self-driving cars, drones, and eve...
The study of combined task and path planning has mainly focused on feasibility planning for high-dim...
A control system operating in a complex environment will encounter a variety of different situations...
This article presents MAPS$^2$ : a distributed algorithm that allows multi-robot systems to deliver ...
As the physical capabilities of robots increase, so do the potential benefits of autonomous operatio...
In unstructured environments in people’s homes and workspaces, robots executing a task may need to a...
We are investigating the use of planning in multi-robot, real-time, dynamic environments. Each indiv...
SM thesisAutonomous robots are being considered for increasingly capable roles in our society, such ...
Anytime algorithms are a class of algorithm which are interruptible and whose solution quality impro...
International audienceIn this paper we propose an anytime plan-ning/replanning algorithm aimed at ge...
The study of combined task and motion planning has mostly been concerned with feasibility planning f...
Agents operating in the real world often have limited time available for planning their next actions...
Anytime algorithms are algorithms whose quality of results improves gradually as computation time in...
Robots are being employed not only for assembly tasks, but also in domains like healthcare, mining, ...
Navigating uncontrolled dynamic environments is a major challenge in robotics. Success requires solv...
Autonomous robotic systems are becoming widespread in the form of self-driving cars, drones, and eve...
The study of combined task and path planning has mainly focused on feasibility planning for high-dim...
A control system operating in a complex environment will encounter a variety of different situations...
This article presents MAPS$^2$ : a distributed algorithm that allows multi-robot systems to deliver ...
As the physical capabilities of robots increase, so do the potential benefits of autonomous operatio...
In unstructured environments in people’s homes and workspaces, robots executing a task may need to a...
We are investigating the use of planning in multi-robot, real-time, dynamic environments. Each indiv...
SM thesisAutonomous robots are being considered for increasingly capable roles in our society, such ...