For safe human-robot interaction and co-existence, collision avoidance is a fundamental prerequisite. Therefore, in this contribution a Nonlinear Model Predictive Control approach for fixed-base and mobile manipulators is presented that allows for avoiding self-collisions and collisions with static and dynamic obstacles while performing tasks defined in the Cartesian space. The collision avoidance takes not only the end-effector but the complete robot consisting of both platform and manipulator into account and relies on a 3D obstacle representation obtained by fusing information from multiple depth sensors. The obstacle representation is applicable to all kinds of objects. It considers occlusions behind the obstacles and the robot to make ...
In this paper, we present a real-time whole-body planner for collision-free legged mobile manipulati...
In this article, we address the motion planning and control problem of a mobile robot, herein consid...
In this paper, a controller based on constrained optimization for tracking problems in mobile manipu...
For redundant fixed or mobile manipulators in shared human-robot workspaces, control algorithms are ...
For human-robot-interaction, this work proposes a method for monitoring the complex, dynamic environ...
In this paper we present a novel strategy for reactive collision-free feasible motion planning for r...
For shared human-robot workspaces and safe physical human-robot interaction, robots have to react ad...
To explore safe interactions between a mobile robot and dynamic obstacles, this paper presents a com...
This paper presents a unique real-time obstacle avoidance approach for manipulators and mobile robot...
The last decade witnessed an unprecedented spread of robotics. The production paradigm of Industry 4...
This paper presents an approach to collision-free, long-range trajectory generation for a mobile rob...
A method of planning sub-optimal trajectory for a mobile manipulator working in the environment incl...
International audienceIn this paper, a Nonlinear Model Predictive Control (NMPC) has been employed t...
In this paper a real-time collision avoidance approach is presented for safe human-robot coexistence...
Mobile manipulators provide manipulation operations with mobility capacity and have wide potentials ...
In this paper, we present a real-time whole-body planner for collision-free legged mobile manipulati...
In this article, we address the motion planning and control problem of a mobile robot, herein consid...
In this paper, a controller based on constrained optimization for tracking problems in mobile manipu...
For redundant fixed or mobile manipulators in shared human-robot workspaces, control algorithms are ...
For human-robot-interaction, this work proposes a method for monitoring the complex, dynamic environ...
In this paper we present a novel strategy for reactive collision-free feasible motion planning for r...
For shared human-robot workspaces and safe physical human-robot interaction, robots have to react ad...
To explore safe interactions between a mobile robot and dynamic obstacles, this paper presents a com...
This paper presents a unique real-time obstacle avoidance approach for manipulators and mobile robot...
The last decade witnessed an unprecedented spread of robotics. The production paradigm of Industry 4...
This paper presents an approach to collision-free, long-range trajectory generation for a mobile rob...
A method of planning sub-optimal trajectory for a mobile manipulator working in the environment incl...
International audienceIn this paper, a Nonlinear Model Predictive Control (NMPC) has been employed t...
In this paper a real-time collision avoidance approach is presented for safe human-robot coexistence...
Mobile manipulators provide manipulation operations with mobility capacity and have wide potentials ...
In this paper, we present a real-time whole-body planner for collision-free legged mobile manipulati...
In this article, we address the motion planning and control problem of a mobile robot, herein consid...
In this paper, a controller based on constrained optimization for tracking problems in mobile manipu...