International audienceA new framework for semi-autonomous path plan- ning for mobile robots that extends the classical paradigm of bilateral shared control is presented. The path is represented as a B-spline and the human operator can modify its shape by controlling the motion of a finite number of control points. An autonomous algorithm corrects in real time the human directives in order to facilitate path tracking for the mobile robot and ensures i) collision avoidance, ii) path regularity, and iii) attraction to nearby points of interest. A haptic feedback algorithm processes both human's and autonomous control terms, and their integrals, to provide an information of the mismatch between the path specified by the operator and the one cor...
International audienceThis paper presents a novel bilateral shared framework for online trajectory g...
International audienceThis paper presents a novel bilateral shared framework for online trajectory g...
International audienceThis paper presents a novel bilateral shared framework for online trajectory g...
International audienceA new framework for semi-autonomous path plan- ning for mobile robots that ext...
International audienceA new framework for semi-autonomous path plan- ning for mobile robots that ext...
International audienceA new framework for semi-autonomous path plan- ning for mobile robots that ext...
Abstract — A new framework for semi-autonomous path plan-ning for mobile robots that extends the cla...
A new framework for semi-autonomous path planning for mobile robots that extends the classical parad...
A new framework for semi-Autonomous path planning for mobile robots that extends the classical parad...
International audienceA new framework for semi-autonomous path plan- ning for mobile robots that ext...
International audienceA new framework for semi-autonomous path plan- ning for mobile robots that ext...
International audienceThis paper presents a novel bilateral shared framework for online trajectory g...
International audienceThis paper presents a novel bilateral shared framework for online trajectory g...
International audienceThis paper presents a novel bilateral shared framework for online trajectory g...
International audienceA new framework for semi-autonomous path plan- ning for mobile robots that ext...
International audienceThis paper presents a novel bilateral shared framework for online trajectory g...
International audienceThis paper presents a novel bilateral shared framework for online trajectory g...
International audienceThis paper presents a novel bilateral shared framework for online trajectory g...
International audienceA new framework for semi-autonomous path plan- ning for mobile robots that ext...
International audienceA new framework for semi-autonomous path plan- ning for mobile robots that ext...
International audienceA new framework for semi-autonomous path plan- ning for mobile robots that ext...
Abstract — A new framework for semi-autonomous path plan-ning for mobile robots that extends the cla...
A new framework for semi-autonomous path planning for mobile robots that extends the classical parad...
A new framework for semi-Autonomous path planning for mobile robots that extends the classical parad...
International audienceA new framework for semi-autonomous path plan- ning for mobile robots that ext...
International audienceA new framework for semi-autonomous path plan- ning for mobile robots that ext...
International audienceThis paper presents a novel bilateral shared framework for online trajectory g...
International audienceThis paper presents a novel bilateral shared framework for online trajectory g...
International audienceThis paper presents a novel bilateral shared framework for online trajectory g...
International audienceA new framework for semi-autonomous path plan- ning for mobile robots that ext...
International audienceThis paper presents a novel bilateral shared framework for online trajectory g...
International audienceThis paper presents a novel bilateral shared framework for online trajectory g...
International audienceThis paper presents a novel bilateral shared framework for online trajectory g...