In this paper, a consensus-based control strategy is presented to gather formation for a group of differential-wheeled robots. The for- mation shape and the avoidance of collisions between robots are ob- tained by exploiting the properties of weighted graphs. Since mobile robots are supposed to move in unknown environments, the presented approach to multi-robot coordination has been extended in order to include obstacle avoidance. The effectiveness of the proposed control strategy has been demonstrated by means of analytical proofs. More- over, results of simulations and experiments on real robots are provided for validation purposes
This paper investigates formation control of multiple nonholonomic differential drive wheeled mobile...
A distributed control mechanism for ground moving nonholonomic robots is proposed. It enables a grou...
Over the past decade, the control research community has given significant attention to formation co...
In this paper, a consensus-based control strategy is presented to gather formation for a group of di...
In this paper we describe a consensus based control strategy to obtain a formation of groups of mobi...
n this paper we describe a consensus based control strategy to obtain a formation of groups of mobil...
International audienceManaging multiple robots into a formation can be beneficial, especially in log...
The increasing implementation of autonomous robots in industries and daily life demands the developm...
This paper presents a distributed method for formation control of a homogeneous team of aerial or gr...
Nowadays, most of the recent researches are focusing on the use of multi-UAVs in both civil and mili...
International audienceThis paper presents a new strategy for formation control of multiple mobile ro...
We present a distributed control law for a group of agents that solves the problem of formation cont...
In this paper, adaptive formation control is addressed for a network of autonomous mobile robots in ...
International audienceWe solve the formation-tracking control problem for mobile robots via linear c...
This paper investigates formation control of multiple nonholonomic differential drive wheeled mobile...
A distributed control mechanism for ground moving nonholonomic robots is proposed. It enables a grou...
Over the past decade, the control research community has given significant attention to formation co...
In this paper, a consensus-based control strategy is presented to gather formation for a group of di...
In this paper we describe a consensus based control strategy to obtain a formation of groups of mobi...
n this paper we describe a consensus based control strategy to obtain a formation of groups of mobil...
International audienceManaging multiple robots into a formation can be beneficial, especially in log...
The increasing implementation of autonomous robots in industries and daily life demands the developm...
This paper presents a distributed method for formation control of a homogeneous team of aerial or gr...
Nowadays, most of the recent researches are focusing on the use of multi-UAVs in both civil and mili...
International audienceThis paper presents a new strategy for formation control of multiple mobile ro...
We present a distributed control law for a group of agents that solves the problem of formation cont...
In this paper, adaptive formation control is addressed for a network of autonomous mobile robots in ...
International audienceWe solve the formation-tracking control problem for mobile robots via linear c...
This paper investigates formation control of multiple nonholonomic differential drive wheeled mobile...
A distributed control mechanism for ground moving nonholonomic robots is proposed. It enables a grou...
Over the past decade, the control research community has given significant attention to formation co...