AbstractMany mathematical and engineering algorithms are dealing with path finding and path planning problems which arise for a mobile navigating robot or the endeffector of a manipulator. Natural mobile systems, like animals navigating in their everyday surroundings, are faced with the same problems and normally generate adequate solutions. For this reason we performed psychometric experiments with human probands [1,2] to investigate both decision-making and path generation in the case of full information. In this paper we present several methods which can be used to generate path forms roughly comparable to those produced by the human probands. The computer simulations proposed here concentrate on algorithms which use local rules and work...
A model-based path planning algorithm will be presented in this paper. The whole model, like the al...
Many robotic applications require repeated, on-demand motion planning in mapped environments. In add...
This kind of robot is capable to perform many modes of locomotion. This skill allows them to adapt...
AbstractMany mathematical and engineering algorithms are dealing with path finding and path planning...
Many mathematical and engineering algorithms are dealing with path finding and path planning problem...
Planning the path is the most important task in the mobile robot navigation. This task involves basi...
In this research a path planning which is the first step of motion planning in robotic applications,...
© 2015 Taylor & Francis. Path planning is a classic problem in computer science and robotics which...
Path planning is crucial for a robot to be able to reach a target point safely to accomplish a given...
Path planning purpose is to find a collision-free path in a defined environment from a starting poin...
In order to achieve the wide range of the robotic application it is necessary to provide iterative m...
The problem of path planning occurs in many areas, such as computational biology, computer animation...
Path planning and trajectory planning are crucial issues in the field of Robotics and, more generall...
AbstractThis article deals with path planning of a mobile robot based on a grid map. Essential assum...
A method for planning smooth robot paths is presented. The method relies on the use of Laplace'...
A model-based path planning algorithm will be presented in this paper. The whole model, like the al...
Many robotic applications require repeated, on-demand motion planning in mapped environments. In add...
This kind of robot is capable to perform many modes of locomotion. This skill allows them to adapt...
AbstractMany mathematical and engineering algorithms are dealing with path finding and path planning...
Many mathematical and engineering algorithms are dealing with path finding and path planning problem...
Planning the path is the most important task in the mobile robot navigation. This task involves basi...
In this research a path planning which is the first step of motion planning in robotic applications,...
© 2015 Taylor & Francis. Path planning is a classic problem in computer science and robotics which...
Path planning is crucial for a robot to be able to reach a target point safely to accomplish a given...
Path planning purpose is to find a collision-free path in a defined environment from a starting poin...
In order to achieve the wide range of the robotic application it is necessary to provide iterative m...
The problem of path planning occurs in many areas, such as computational biology, computer animation...
Path planning and trajectory planning are crucial issues in the field of Robotics and, more generall...
AbstractThis article deals with path planning of a mobile robot based on a grid map. Essential assum...
A method for planning smooth robot paths is presented. The method relies on the use of Laplace'...
A model-based path planning algorithm will be presented in this paper. The whole model, like the al...
Many robotic applications require repeated, on-demand motion planning in mapped environments. In add...
This kind of robot is capable to perform many modes of locomotion. This skill allows them to adapt...