One of the fundamental tasks robots have to perform is planning their motions while avoiding collisions with obstacles in the environment. This is the central topic of the thesis. We restrict ourselves to motion planning for two- and three-dimensional rigid bodies and articulated robots moving in static and known virtual environments. This thesis has been divided into two parts. The first part deals with comparing and analyzing sampling-based motion planning techniques, in particular variants of the Probabilistic Roadmap Method (PRM). The PRM consists of two phases: a construction and a query phase. In the construction phase, a roadmap (graph) is built, approximating the motions that can be made in the environment. First, a free random samp...
Robot motions typically originate from an uninformed path sampling process such as random or low-dis...
Motion planning is a fundamental problem with applications in a wide variety of areas including robo...
In this paper, we discuss the field of sampling-based motion planning. In contrast to methods that c...
Motion planning deals with finding a collision-free trajectory for a robot from the current position...
In its original formulation, the motion planning problem considers the search of a robot path from a...
Sampling-based motion approaches, like Probabilistic Roadmap Methods or those based on Rapidly-explo...
Sampling based planners have been successful in path planning of robots with many degrees of freedom...
Automatically planning the motion of rigid bodies moving in 3D by translation and rotation in the pr...
In robot motion planning, many algorithms have been proposed that create a roadmap from which a path...
Motion is an essential component of our world. It dominates the world of robotics, our understanding...
Automated motion-planning technologies for industrial robots are critical for their application to I...
Sampling-based motion planning in the field of robot motion planning has provided an effective appro...
Path planning is a fundamental problem in mobile robots that optimize the path to determine how the ...
Sampling-based motion planning is a powerful tool in solving the motion planning problem for a varie...
Motion planning is a fundamental research area in robotics. Sampling-based methods offer an efcient ...
Robot motions typically originate from an uninformed path sampling process such as random or low-dis...
Motion planning is a fundamental problem with applications in a wide variety of areas including robo...
In this paper, we discuss the field of sampling-based motion planning. In contrast to methods that c...
Motion planning deals with finding a collision-free trajectory for a robot from the current position...
In its original formulation, the motion planning problem considers the search of a robot path from a...
Sampling-based motion approaches, like Probabilistic Roadmap Methods or those based on Rapidly-explo...
Sampling based planners have been successful in path planning of robots with many degrees of freedom...
Automatically planning the motion of rigid bodies moving in 3D by translation and rotation in the pr...
In robot motion planning, many algorithms have been proposed that create a roadmap from which a path...
Motion is an essential component of our world. It dominates the world of robotics, our understanding...
Automated motion-planning technologies for industrial robots are critical for their application to I...
Sampling-based motion planning in the field of robot motion planning has provided an effective appro...
Path planning is a fundamental problem in mobile robots that optimize the path to determine how the ...
Sampling-based motion planning is a powerful tool in solving the motion planning problem for a varie...
Motion planning is a fundamental research area in robotics. Sampling-based methods offer an efcient ...
Robot motions typically originate from an uninformed path sampling process such as random or low-dis...
Motion planning is a fundamental problem with applications in a wide variety of areas including robo...
In this paper, we discuss the field of sampling-based motion planning. In contrast to methods that c...