This article investigates circular formation control problems for a group of anonymous mobile robots in the plane, where all robots can converge asymptotically to a predefined circular orbit around a fixed target point without collision, and maintain any desired relative distances from their neighbors. Given the limited resources for communication and computation of robots, a distributed event-triggered method is firstly designed to reduce dependence on resources in multi-robot systems, where the controller's action is determined by whether the norm of the event-trigger function exceeds zero through continuous sampling. And then, to further minimize communications costs, a self-triggered strategy is proposed, which only uses discrete states...
In this paper, a new leaderless cooperative formation control strategy is proposed for a group of au...
n this paper we describe a consensus based control strategy to obtain a formation of groups of mobil...
Consider a set of n ̸= 4 simple autonomous mobile robots (decentralized, asynchronous, no common coo...
This article investigates circular formation control problems for a group of anonymous mobile robots...
This paper investigates circular formation control problems for multi-robot systems in the plane via...
This paper mainly investigates formation control problems for a group of anonymous mobile robots wit...
This paper proposes a distributed control law for a group of mobile robots to form any given formati...
We study the circle formation problem for a group of anonymous mobile agents in a plane, in which we...
We propose distributed control laws for a group of anonymous mobile agents to form desired circle fo...
This paper investigates the cooperative control problem for a group of autonomous nonholonomic mobil...
International audienceThis paper presents a new strategy for formation control of multiple mobile ro...
We study the circle forming problem in which a group of anonymous mobile agents are required to form...
A distributed control mechanism for ground moving nonholonomic robots is proposed. It enables a grou...
The increasing implementation of autonomous robots in industries and daily life demands the developm...
We propose distributed control laws for a group of anonymous mobile agents to form desired circle fo...
In this paper, a new leaderless cooperative formation control strategy is proposed for a group of au...
n this paper we describe a consensus based control strategy to obtain a formation of groups of mobil...
Consider a set of n ̸= 4 simple autonomous mobile robots (decentralized, asynchronous, no common coo...
This article investigates circular formation control problems for a group of anonymous mobile robots...
This paper investigates circular formation control problems for multi-robot systems in the plane via...
This paper mainly investigates formation control problems for a group of anonymous mobile robots wit...
This paper proposes a distributed control law for a group of mobile robots to form any given formati...
We study the circle formation problem for a group of anonymous mobile agents in a plane, in which we...
We propose distributed control laws for a group of anonymous mobile agents to form desired circle fo...
This paper investigates the cooperative control problem for a group of autonomous nonholonomic mobil...
International audienceThis paper presents a new strategy for formation control of multiple mobile ro...
We study the circle forming problem in which a group of anonymous mobile agents are required to form...
A distributed control mechanism for ground moving nonholonomic robots is proposed. It enables a grou...
The increasing implementation of autonomous robots in industries and daily life demands the developm...
We propose distributed control laws for a group of anonymous mobile agents to form desired circle fo...
In this paper, a new leaderless cooperative formation control strategy is proposed for a group of au...
n this paper we describe a consensus based control strategy to obtain a formation of groups of mobil...
Consider a set of n ̸= 4 simple autonomous mobile robots (decentralized, asynchronous, no common coo...