Search for dissertations about: "robot motion planning"
Showing result 1 - 5 of 43 swedish dissertations containing the words robot motion planning.
-
1. Optimization-based robot grasp synthesis and motion control
Abstract : This thesis investigates the questions of where to grasp and how to grasp a given object with an articulated robotic grasping device. To this end, aspects of grasp synthesis and hand motion planning and control are investigated. READ MORE
-
2. Robot Manipulation Planning Among Obstacles: Grasping, Placing and Rearranging
Abstract : This thesis presents planning algorithms for three different robot manipulation tasks: fingertip grasping, object placing and rearranging. Herein, we place special attention on addressing these tasks in the presence of obstacles. READ MORE
-
3. An industrial robot as carrier of a laser profile scanner : motion control, data capturing and path planning
Abstract : Geometric Reverse Engineering (RE) is concerned with the problem of creating CAD-models of real objects by measuring point data from their surfaces. In the aim of creating a fully automatic RE system there is a need to automate also the measuring process. READ MORE
-
4. Multi-Robot Motion Planning Optimisation for Handling Sheet Metal Parts
Abstract : Motion planning for robot operations is concerned with path planning and trajectory generation. In multi-robot systems, i.e. with multiple robots operating simultaneously in a shared workspace, the motion planning also needs to coordinate the robots' motions to avoid collisions between them. READ MORE
-
5. Contributions to motion planning and orbital stabilization : case studies: Furuta pendulum swing up, inertia wheel oscillations and biped robot walking
Abstract : Generating and stabilizing periodic motions in nonlinear systems is a challenging task. In the control system community this topic is also known as limit cycle control. In recent years a framework known as Virtual Holonomic Constraints (VHC) has been developed as one of the solutions to this problem. READ MORE