Algorithms such as RRT (Rapidly exploring random tree), A* and their variants have been widely used in the field of robot path planning. A lot of work has shown that these detectors are unable to carry out effective and stable results for moving objects in high-dimensional space, which generate a large number of multi-dimensional corner points. Although some filtering mechanisms (such as splines and valuation functions) reduce the calculation scale, the chance of collision is increased, which is fatal to robots. In order to generate fewer but more effective and stable feature points, we propose a novel multi-scale positioning method to plan the motion of the high-dimensional target. First, a multi-scale feature extraction and refinement sch...
Humanoid robots have abilities of stepping over or onto obstacles, which is different from wheeled r...
Many algorithms have been proposed that create a path for a robot in an environment with obstacles. ...
In recent years, robotic technology has improved significantly, aided by cutting-edge scientific res...
In a future intelligent factory, a robotic manipulator must work efficiently and safely in a Human–R...
Abstract In this article, we present a new path planning algorithm based on the rapidly exploring ra...
This paper propose an adaptive Rapidly-exploring Random Tree (adaptive RRT) for highdimensional path...
Abstract—Many motion planning problems in robotics are high dimensional planning problems. While sam...
513-516Rapidly Exploring Random Tree is a technique that utilizes samples as constraints for arrangi...
In domestic robotics, passing through narrow areas becomes critical for safe and effective robot nav...
Path planning has important applications in many areas, for example industrial robotics, autonomous ...
Path planning for mobile robots with high degree of freedom (DOF) is an extreme challenge. Although ...
In domestic robotics, passing through narrow areas becomes critical for safe and effective robot nav...
Many existing path planning methods do not adequately account for uncertainty. Without uncertainty t...
In recent years, the path planning of robot has been a hot research direction, and multirobot format...
The Probabilistic Roadmap method (PRM) has been widely used in the field of robot path planning and ...
Humanoid robots have abilities of stepping over or onto obstacles, which is different from wheeled r...
Many algorithms have been proposed that create a path for a robot in an environment with obstacles. ...
In recent years, robotic technology has improved significantly, aided by cutting-edge scientific res...
In a future intelligent factory, a robotic manipulator must work efficiently and safely in a Human–R...
Abstract In this article, we present a new path planning algorithm based on the rapidly exploring ra...
This paper propose an adaptive Rapidly-exploring Random Tree (adaptive RRT) for highdimensional path...
Abstract—Many motion planning problems in robotics are high dimensional planning problems. While sam...
513-516Rapidly Exploring Random Tree is a technique that utilizes samples as constraints for arrangi...
In domestic robotics, passing through narrow areas becomes critical for safe and effective robot nav...
Path planning has important applications in many areas, for example industrial robotics, autonomous ...
Path planning for mobile robots with high degree of freedom (DOF) is an extreme challenge. Although ...
In domestic robotics, passing through narrow areas becomes critical for safe and effective robot nav...
Many existing path planning methods do not adequately account for uncertainty. Without uncertainty t...
In recent years, the path planning of robot has been a hot research direction, and multirobot format...
The Probabilistic Roadmap method (PRM) has been widely used in the field of robot path planning and ...
Humanoid robots have abilities of stepping over or onto obstacles, which is different from wheeled r...
Many algorithms have been proposed that create a path for a robot in an environment with obstacles. ...
In recent years, robotic technology has improved significantly, aided by cutting-edge scientific res...