The paper studies the formation control problem for distributed robot systems. It is assumed each robot only has access to local sensing information (i.e. the relative positions and IDs of its neighbors). Taking into consideration physical sensing constraints (e.g. limited sensing range) and the motion of the robots over time, it may be noted that the sensing graph for the system is directed and time-varying. This presents a challenging situation for formation control. As an initiative attempt to study this challenging situation, we suppose the sensing graph switches among a family of graphs with certain connectivity properties, under which a switching linear control law is then proposed. We show that for arbitrary dwell times or average dw...
In this chapter, formation control of mobile robots with nonlinear models is considered. Two control...
We describe a framework for coordination and control of a group of nonholonomic mobile robots that a...
Abstract — This paper proposes distributed control laws for maintaining the shape of a formation of ...
Abstract. In this paper we consider the formation control of multiple nonholo-nomic mobile robots wi...
Multi-robot system enjoys broad applications in civilian, industrial, and military areas, as team co...
In this paper, a distributed controller–observer schema for tracking control of the centroid and of ...
Abstract: This paper addresses a formation control issue for a group of robots with dynamic interact...
Inspired from the collective behavior of biological entities for the group motion coordination, this...
A number of techniques that allow autonomous multi-robot systems to be held within formation-like st...
The field of robotics is evolving from single monolithic robots to teams of small but interconnected...
Formation control for a team of robots is investigated in this paper. We consider the case where no ...
In this paper, a distributed controller–observer schema for tracking control of the centroid and of ...
This paper proposes distributed control laws for maintaining the shape of a formation of mobile auto...
This paper focuses on the formation control of multi-robot systems with leader–follower network stru...
In this paper we present a decentralized control strategy for the connectivity maintenance for group...
In this chapter, formation control of mobile robots with nonlinear models is considered. Two control...
We describe a framework for coordination and control of a group of nonholonomic mobile robots that a...
Abstract — This paper proposes distributed control laws for maintaining the shape of a formation of ...
Abstract. In this paper we consider the formation control of multiple nonholo-nomic mobile robots wi...
Multi-robot system enjoys broad applications in civilian, industrial, and military areas, as team co...
In this paper, a distributed controller–observer schema for tracking control of the centroid and of ...
Abstract: This paper addresses a formation control issue for a group of robots with dynamic interact...
Inspired from the collective behavior of biological entities for the group motion coordination, this...
A number of techniques that allow autonomous multi-robot systems to be held within formation-like st...
The field of robotics is evolving from single monolithic robots to teams of small but interconnected...
Formation control for a team of robots is investigated in this paper. We consider the case where no ...
In this paper, a distributed controller–observer schema for tracking control of the centroid and of ...
This paper proposes distributed control laws for maintaining the shape of a formation of mobile auto...
This paper focuses on the formation control of multi-robot systems with leader–follower network stru...
In this paper we present a decentralized control strategy for the connectivity maintenance for group...
In this chapter, formation control of mobile robots with nonlinear models is considered. Two control...
We describe a framework for coordination and control of a group of nonholonomic mobile robots that a...
Abstract — This paper proposes distributed control laws for maintaining the shape of a formation of ...