The presented solution is a decentralized control system with a minimal informational interaction between the objects in the group. During control and path planning the obstacles are transformed into repellers by the synthesized controls. The main feature distinguishing the developed approach from the potential fields method is that the vehicle moves in the fields of forces depending not only on the mutual positions of a robot and an obstacle but also on the additional variables allowing solving the problem of robot’s path planning using a distributed control system (Pshikhopov and Ali, 2011). Unlike the work by Pshikhopov and Ali, 2011, here an additional dynamic variable is used to introduce stable and unstable states depending on the sta...
Abstract. We address the synthesis of controllers for groups of multi-robot systems that enable them...
In this paper, the problem of formation control of robotic vehicles is studied. For a general format...
Abstract: The paper deals with problems of grouped mobile robots behavior. A review of bas...
Abstract—We propose a method for synthesizing decentralized feedback controllers for a team of multi...
We describe a framework for coordination and control of a group of nonholonomic mobile robots that a...
Abstract—This paper describes how decentralized control theory can be used to analyze the control of...
Autonomous multi-robot systems play important roles in many areas such as industrial applications fo...
We address the challenge of controlling a team of robots through a complex environment, a capability...
The increasing implementation of autonomous robots in industries and daily life demands the developm...
A distributed control mechanism for ground moving nonholonomic robots is proposed. It enables a grou...
Whether providing automated passenger transport systems, exploring the hostile depths of the ocean o...
Abstract—Spatial multiagency has been receiving growing attention from researchers exploring many of...
Abstract—We address the problem of controlling a formation of robots in a cluttered environment. Ins...
Robots can augment and even replace humans in dangerous environments, such as search and rescue and ...
International audienceThis paper presents a new strategy for formation control of multiple mobile ro...
Abstract. We address the synthesis of controllers for groups of multi-robot systems that enable them...
In this paper, the problem of formation control of robotic vehicles is studied. For a general format...
Abstract: The paper deals with problems of grouped mobile robots behavior. A review of bas...
Abstract—We propose a method for synthesizing decentralized feedback controllers for a team of multi...
We describe a framework for coordination and control of a group of nonholonomic mobile robots that a...
Abstract—This paper describes how decentralized control theory can be used to analyze the control of...
Autonomous multi-robot systems play important roles in many areas such as industrial applications fo...
We address the challenge of controlling a team of robots through a complex environment, a capability...
The increasing implementation of autonomous robots in industries and daily life demands the developm...
A distributed control mechanism for ground moving nonholonomic robots is proposed. It enables a grou...
Whether providing automated passenger transport systems, exploring the hostile depths of the ocean o...
Abstract—Spatial multiagency has been receiving growing attention from researchers exploring many of...
Abstract—We address the problem of controlling a formation of robots in a cluttered environment. Ins...
Robots can augment and even replace humans in dangerous environments, such as search and rescue and ...
International audienceThis paper presents a new strategy for formation control of multiple mobile ro...
Abstract. We address the synthesis of controllers for groups of multi-robot systems that enable them...
In this paper, the problem of formation control of robotic vehicles is studied. For a general format...
Abstract: The paper deals with problems of grouped mobile robots behavior. A review of bas...