In this paper, we propose a new path planning algorithm based on the probabilistic roadmaps method (PRM), in order to effectively solve the autonomous path planning of mobile robots in complex environments with multiple narrow channels. The improved PRM algorithm mainly improves the density and distribution of sampling points in the narrow channel, through a combination of the learning process of the PRM algorithm and the APF algorithm. We also shortened the required time and path length by optimizing the query process. The first key technology to improve the PRM algorithm involves optimizing the number and distribution of free points and collision-free lines in the free workspace. To ensure full visibility of the narrow channel, we extend ...
Probabilistic Roadmaps (PRM) are a commonly used class of algorithms for robot navigation tasks wher...
Motion planning deals with finding a collision-free trajectory for a robot from the current position...
Planning the path is the most important task in the mobile robot navigation. This task involves basi...
The Probabilistic RoadMap planner (PRM) has been applied with success to multiple planning problems ...
Path planning is a fundamental problem in mobile robots that optimize the path to determine how the ...
Sampling-based motion planners are widely used in robotics due to their simplicity, flexibility and ...
In view of the shortcomings of low search efficiency and many path turning points of Probabilistic R...
Path planning for mobile robots with high degree of freedom (DOF) is an extreme challenge. Although ...
This paper presents Morphological Dilation Voronoi Diagram Roadmap (MVDRM) algorithm to address unsa...
Path planning is a very important step for mobile smart vehicles in complex environments. Sampling b...
The Probabilistic Roadmap method (PRM) has been widely used in the field of robot path planning and ...
To guarantee safe motion planning, the underlying path planning algorithm must consider motion uncer...
Abstract: The probabilistic roadmap (PRM) method, which is a popular path planning scheme, for a man...
This thesis consists of three papers concerned with the basic path planning problem for robots movin...
A Grid-Local Probability Road Map (PRM) method was proposed for the path planning of manipulators in...
Probabilistic Roadmaps (PRM) are a commonly used class of algorithms for robot navigation tasks wher...
Motion planning deals with finding a collision-free trajectory for a robot from the current position...
Planning the path is the most important task in the mobile robot navigation. This task involves basi...
The Probabilistic RoadMap planner (PRM) has been applied with success to multiple planning problems ...
Path planning is a fundamental problem in mobile robots that optimize the path to determine how the ...
Sampling-based motion planners are widely used in robotics due to their simplicity, flexibility and ...
In view of the shortcomings of low search efficiency and many path turning points of Probabilistic R...
Path planning for mobile robots with high degree of freedom (DOF) is an extreme challenge. Although ...
This paper presents Morphological Dilation Voronoi Diagram Roadmap (MVDRM) algorithm to address unsa...
Path planning is a very important step for mobile smart vehicles in complex environments. Sampling b...
The Probabilistic Roadmap method (PRM) has been widely used in the field of robot path planning and ...
To guarantee safe motion planning, the underlying path planning algorithm must consider motion uncer...
Abstract: The probabilistic roadmap (PRM) method, which is a popular path planning scheme, for a man...
This thesis consists of three papers concerned with the basic path planning problem for robots movin...
A Grid-Local Probability Road Map (PRM) method was proposed for the path planning of manipulators in...
Probabilistic Roadmaps (PRM) are a commonly used class of algorithms for robot navigation tasks wher...
Motion planning deals with finding a collision-free trajectory for a robot from the current position...
Planning the path is the most important task in the mobile robot navigation. This task involves basi...