The article presents overview of authors' results concerning mobile robot con- trol algorithms that use local arti cial potential functions (APF) to avoid colli- sions and global arti cial potential functions, named also navigation functions (NF) used to both collision avoidance and driving robot to a desired goal. All included algorithms assume that the mobile platform is di erentially driven mobile robot with nonholonomic constraints. E ectiveness of presented meth- ods is illustrated by simulation and experimental results. Experimental setup used to demonstrate control algorithms is presented.The article presents overview of authors' results concerning mobile robot con-trol algorithms that use local articial potential functions (APF) to ...
In this paper, the issue of local minima associated with GNRON (Goal Nonreachable with Obstacles Nea...
A very challenging problem in mobile robot systems is mostly in obstacle avoidance strategies. This...
A potential eld method in the real-time approach toward avoidance of obstacles for a mobile robot ha...
The article presents overview of authors' results concerning mobile robot con- trol algorithms that ...
Mobile robots need path-planning abilities to achieve a collision-free trajectory. Obstacles between...
A team of mobile robots moving in a shared area raises the problem of safe and autonomous navigation...
There is a major problem with traditional artificial potential field method. It is the formation of ...
This paper addresses the safe navigation of multiple nonholonomic mobile robots in shared areas. Obs...
Traditional APF-based mobile robot path planning approaches posses an inherent problem which is the ...
Mobile robots play an increasing role in everyday life, be it for industrial purposes, military miss...
This paper reviews the theory of navigation functions and the attendant use of natural control techn...
This paper presents a new formulation of the artificial potential approach to the obstacle avoidance...
Abstract—This paper presents a new way for mobile robots’ path planning which is based on the Evolut...
An important aspect of the navigation of mobile robots is the avoidance of static and dynamic obstac...
Abstract In recent years, topics related to robotics have become one of the researching fields. In t...
In this paper, the issue of local minima associated with GNRON (Goal Nonreachable with Obstacles Nea...
A very challenging problem in mobile robot systems is mostly in obstacle avoidance strategies. This...
A potential eld method in the real-time approach toward avoidance of obstacles for a mobile robot ha...
The article presents overview of authors' results concerning mobile robot con- trol algorithms that ...
Mobile robots need path-planning abilities to achieve a collision-free trajectory. Obstacles between...
A team of mobile robots moving in a shared area raises the problem of safe and autonomous navigation...
There is a major problem with traditional artificial potential field method. It is the formation of ...
This paper addresses the safe navigation of multiple nonholonomic mobile robots in shared areas. Obs...
Traditional APF-based mobile robot path planning approaches posses an inherent problem which is the ...
Mobile robots play an increasing role in everyday life, be it for industrial purposes, military miss...
This paper reviews the theory of navigation functions and the attendant use of natural control techn...
This paper presents a new formulation of the artificial potential approach to the obstacle avoidance...
Abstract—This paper presents a new way for mobile robots’ path planning which is based on the Evolut...
An important aspect of the navigation of mobile robots is the avoidance of static and dynamic obstac...
Abstract In recent years, topics related to robotics have become one of the researching fields. In t...
In this paper, the issue of local minima associated with GNRON (Goal Nonreachable with Obstacles Nea...
A very challenging problem in mobile robot systems is mostly in obstacle avoidance strategies. This...
A potential eld method in the real-time approach toward avoidance of obstacles for a mobile robot ha...