This paper presents a deterministic algorithm for forming a given asymmetric pattern in finite time by a set of autonomous, homogeneous, oblivious mobile robots under the CORDA model. The robots are represented as points on the 2D plane. There is no explicit communication between the robots. The robots coordinate among themselves by observing the positions of the other robots on the plane. Initially all the robots are assumed to be stationary. The robots have local coordinate systems defined by Sense of Direction (SoD), orientation or chirality and scale. Initially the robots are in asymmetric configuration. We show that these robots can form any given asymmetric pattern in finite time
Arbitrary Pattern Formation is a fundamental problem in autonomous mobile robot systems. The problem...
AbstractIn this paper we study the problem of gathering a collection of identical oblivious mobile r...
The traditional distributed model of autonomous, homoge-neous, mobile point robots usually assumes t...
Among fundamental problems in the context of distributed computing by mobile robots, the Pattern For...
AbstractFrom an engineering point of view, the problem of coordinating a set of autonomous, mobile r...
From an engineering point of view, the problem of coordinating a set of autonomous, mobile robots f...
Leader election and arbitrary pattern formation are fundammental tasks for a set of au- tonomous mob...
International audienceLeader election and arbitrary pattern formation are fundamental tasks for a se...
We propose a new probabilistic pattern formation algorithm for oblivious mobile robots that operates...
International audienceWe propose a new probabilistic pattern formation algorithm for oblivious mobil...
Consider a set of n finite set of simple autonomous mobile robots (asynchronous, no common coordinat...
International audienceThe pattern formation problem by autonomous mobile robots has been extensively...
Gathering of autonomous mobile robots is a well known and challenging re-search problem for a system...
In this paper we study the problem of gathering a collection of identical oblivious mobile robots in...
Consider a set of n ̸= 4 simple autonomous mobile robots (decentralized, asynchronous, no common coo...
Arbitrary Pattern Formation is a fundamental problem in autonomous mobile robot systems. The problem...
AbstractIn this paper we study the problem of gathering a collection of identical oblivious mobile r...
The traditional distributed model of autonomous, homoge-neous, mobile point robots usually assumes t...
Among fundamental problems in the context of distributed computing by mobile robots, the Pattern For...
AbstractFrom an engineering point of view, the problem of coordinating a set of autonomous, mobile r...
From an engineering point of view, the problem of coordinating a set of autonomous, mobile robots f...
Leader election and arbitrary pattern formation are fundammental tasks for a set of au- tonomous mob...
International audienceLeader election and arbitrary pattern formation are fundamental tasks for a se...
We propose a new probabilistic pattern formation algorithm for oblivious mobile robots that operates...
International audienceWe propose a new probabilistic pattern formation algorithm for oblivious mobil...
Consider a set of n finite set of simple autonomous mobile robots (asynchronous, no common coordinat...
International audienceThe pattern formation problem by autonomous mobile robots has been extensively...
Gathering of autonomous mobile robots is a well known and challenging re-search problem for a system...
In this paper we study the problem of gathering a collection of identical oblivious mobile robots in...
Consider a set of n ̸= 4 simple autonomous mobile robots (decentralized, asynchronous, no common coo...
Arbitrary Pattern Formation is a fundamental problem in autonomous mobile robot systems. The problem...
AbstractIn this paper we study the problem of gathering a collection of identical oblivious mobile r...
The traditional distributed model of autonomous, homoge-neous, mobile point robots usually assumes t...