In constraint-based programming, robot tasks are specified and solved as optimization problems with sets of constraints and one or multiple objective functions. In our previous work, we presented (i) a generic modeling approach for geometrically complex robot tasks, including the modeling of parametric uncertainty, in order to allow the robot task programmer to specify the optimization problem without explicitly writing down the different (possibly numerous and involved) constraint equations, and (ii) methods for solving these optimization problem online in the instantaneous case (reactive control), and offline in the non-instantaneous case (trajectory planning). This paper has two contributions. First, it extends our framework to include t...
This research aims to bridge the gap between symbolic plans and constraint-based motion specificatio...
A task planning method is presented to model and reproduce robot trajectories based on those capture...
140 pagesMost tasks we want robots to perform require interaction with the physical world via an unk...
Existing commercial robot control systems are designed for classical large-scale high-productivity i...
International audienceThé problem of robotic task definition and execution was pioneered by Mason, [...
The problem of robotic task definition and execution was pioneered by Mason, who defined setpoint co...
Consider the practically relevant situation in which a robotic system is assigned a task to be execu...
This paper introduces a systematic constraint-based approach to specify complex tasks of general sen...
This paper addresses time-optimal path-constrained trajectory planning. Given a geometric path for a...
This work aims to extend the constraint-based formalism iTaSC for scenarios where physical human-rob...
This paper was recommended for publication by Editor J. Li upon evaluation of the Associate Editor a...
A method for parameterizing robot trajectories in the presence of uncertainties is presented. The pl...
Robots that operate in natural human environments must be capable of handling uncertain dynamics and...
International audienceThis paper presents a generic solution to apply a mission described by a seque...
In this work, we propose a constraint-based algorithm for combined trajectory generation and kinemat...
This research aims to bridge the gap between symbolic plans and constraint-based motion specificatio...
A task planning method is presented to model and reproduce robot trajectories based on those capture...
140 pagesMost tasks we want robots to perform require interaction with the physical world via an unk...
Existing commercial robot control systems are designed for classical large-scale high-productivity i...
International audienceThé problem of robotic task definition and execution was pioneered by Mason, [...
The problem of robotic task definition and execution was pioneered by Mason, who defined setpoint co...
Consider the practically relevant situation in which a robotic system is assigned a task to be execu...
This paper introduces a systematic constraint-based approach to specify complex tasks of general sen...
This paper addresses time-optimal path-constrained trajectory planning. Given a geometric path for a...
This work aims to extend the constraint-based formalism iTaSC for scenarios where physical human-rob...
This paper was recommended for publication by Editor J. Li upon evaluation of the Associate Editor a...
A method for parameterizing robot trajectories in the presence of uncertainties is presented. The pl...
Robots that operate in natural human environments must be capable of handling uncertain dynamics and...
International audienceThis paper presents a generic solution to apply a mission described by a seque...
In this work, we propose a constraint-based algorithm for combined trajectory generation and kinemat...
This research aims to bridge the gap between symbolic plans and constraint-based motion specificatio...
A task planning method is presented to model and reproduce robot trajectories based on those capture...
140 pagesMost tasks we want robots to perform require interaction with the physical world via an unk...