Add to ORKGA novel formation control and switching approach for multiple robots in uncertain environments is proposed in this paper. A formation parameter matrix is adopted to establish the relative relationship among the robots, and the formation control problem is converted into the tracking problem of the-off-axis point of the follower to the-off-axis point on the virtual robot, which has the same orientation as that of the leader and maintains a desired relative distance and desired observation angle with respect to the leader. The tracking control law is then designed. An obstacle avoidance strategy combined with formation switching is proposed to avoid collisions in the presence of obstacles, and a fault tolerance strategy is given to deal with ...
Abstract: This paper addresses a formation control issue for a group of robots with dynamic interact...
The paper presents a study of a mobile multi-robot formation (MRF) control problem. The robots are n...
AbstractThis paper extends the synchronization approach for formation control of multiple mobile rob...
Multi-robot system has wide applications in both civil and military fields, due to its high efficien...
Multi-robot system has wide applications in both civil and military fields, due to its high efficien...
[[abstract]]This paper presents an algorithm for multiple-obstacle avoidance and a procedure of the ...
[[abstract]]In the paper, an algorithm for the multiple-obstacle avoidance and a procedure of the ro...
International audienceManaging multiple robots into a formation can be beneficial, especially in log...
This paper presents a novel approach to obstacle avoidance for a group of robots moving in formation...
International audienceThe motion control of multi-robots in formation using a Flexible Virtual Struc...
This paper presents a novel approach to obstacle avoidance for a group of robots moving in formation...
Copyright © 2003 IFACIn this paper we investigate the question concerning what multi-agent formation...
The increasing implementation of autonomous robots in industries and daily life demands the developm...
In this study, an optimally distributed formation control approach is proposed for mixed-order multi...
International audience— In this paper, the control problem for a group of mobile robots keeping a ge...
Abstract: This paper addresses a formation control issue for a group of robots with dynamic interact...
The paper presents a study of a mobile multi-robot formation (MRF) control problem. The robots are n...
AbstractThis paper extends the synchronization approach for formation control of multiple mobile rob...
Multi-robot system has wide applications in both civil and military fields, due to its high efficien...
Multi-robot system has wide applications in both civil and military fields, due to its high efficien...
[[abstract]]This paper presents an algorithm for multiple-obstacle avoidance and a procedure of the ...
[[abstract]]In the paper, an algorithm for the multiple-obstacle avoidance and a procedure of the ro...
International audienceManaging multiple robots into a formation can be beneficial, especially in log...
This paper presents a novel approach to obstacle avoidance for a group of robots moving in formation...
International audienceThe motion control of multi-robots in formation using a Flexible Virtual Struc...
This paper presents a novel approach to obstacle avoidance for a group of robots moving in formation...
Copyright © 2003 IFACIn this paper we investigate the question concerning what multi-agent formation...
The increasing implementation of autonomous robots in industries and daily life demands the developm...
In this study, an optimally distributed formation control approach is proposed for mixed-order multi...
International audience— In this paper, the control problem for a group of mobile robots keeping a ge...
Abstract: This paper addresses a formation control issue for a group of robots with dynamic interact...
The paper presents a study of a mobile multi-robot formation (MRF) control problem. The robots are n...
AbstractThis paper extends the synchronization approach for formation control of multiple mobile rob...