Robotic Swarm Dispersion Using Wireless Intensity Signals

Ludwig, Luke; Gini, Maria

doi:10.1007/4-431-35881-1_14

Cited by 45 publications

(30 citation statements)

References 13 publications

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“…This technique doesn't take into consideration the problem of coverage redundancy. Ludwig et al [8] extends this work by adding wireless signal intensity as a rough approximation of distance between robots. The Clique Intensity Algorithm described considers each robot as a node, finds maximal cliques and disperses the swarm based on clique intensity.…”

Section: Related Workmentioning

confidence: 97%

A swarm-based algorithm for optimal spatial coverage of an unknown region

Antal

Tamas

Cioara

et al. 2013

2013 IEEE 9th International Conference on Intelligent Computer Communication and Processing (ICCP)

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This paper presents an algorithm for optimal spatial coverage of an unknown region by a swarm of agents. The algorithm is based on the Ant Colony Optimization heuristic which is mapped and adapted to solve the current optimization problem. Each agent will leave a virtual pheromone trail during its movement through the unknown region, either attractor or repellent, represented by a positive or negative value, that decays in time. A novel stimergy technique is used to coordinate the agents' behavior when deciding to follow or to move away from the pheromone trail, depending on the pheromone value. For exploring the unknown areas a combination of a greedy technique based on the concept of rejection vector and a probabilistic technique for selecting the agents' rotating angles are employed. The obtained results are promising showing that our solution manages to obtain a coverage with up to 40% higher than classic rejection algorithm and with up to 25% that the distributed rejection algorithm.

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Section: Related Workmentioning

confidence: 97%

A swarm-based algorithm for optimal spatial coverage of an unknown region

Antal

Tamas

Cioara

et al. 2013

2013 IEEE 9th International Conference on Intelligent Computer Communication and Processing (ICCP)

View full text Add to dashboard Cite

show abstract

“…According to them, and although robots do not have information about the bearing to neighbouring robots, the algorithm successfully disperses the robots. Ludwig and Gini [37] and Damer et al [38] also only use the wireless intensity for dispersion of a swarm of robots. ey use a more elaborated algorithm that takes into account a graph of the neighbouring robots and the received signal intensities.…”

Section: 2mentioning

confidence: 99%

An Introduction to Swarm Robotics

2013

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Swarm robotics is a �eld of multi-robotics in which large number of robots are coordinated in a distributed and decentralised way. It is based on the use of local rules, and simple robots compared to the complexity of the task to achieve, and inspired by social insects. Large number of simple robots can perform complex tasks in a more efficient way than a single robot, giving robustness and �exibility to the group. In this article, an overview of swarm robotics is given, describing its main properties and characteristics and comparing it to general multi-robotic systems. A review of different research works and experimental results, together with a discussion of the future swarm robotics in real world applications completes this work.

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“…For a mobile sensor network driven by the distributed control law defined by (2) and (8) with a set of initial condition…”

Section: Appendixmentioning

confidence: 99%

Self-Organized Connectivity Control and Optimization Subjected to Dispersion of Mobile Ad Hoc Sensor Networks

Yang

Ding

2012

International Journal of Distributed Sensor Networks

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This paper addresses the problem of the connectivity control and the self-organized deployment/dispersion of a team of mobile ad hoc sensor nodes. First, to reduce redundant communication links while preserving global connectivity, a distributed link removal algorithm is developed that only requires local information of no more than two-hop neighbors. Secondly, for the purpose of preserving essential links while avoiding collisions, a combined piecewise-continuous motion controller is designed to regulate the motion of mobile sensors between two consecutive switches. The proposed hybrid control system can autonomously disperse a team of mobile sensors towards their final configuration with guaranteed connectivity and collision avoidance. Theoretical analysis and computer simulations have confirmed the efficiency and scalability of the proposed schemes.

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Robotic Swarm Dispersion Using Wireless Intensity Signals

Cited by 45 publications

References 13 publications

A swarm-based algorithm for optimal spatial coverage of an unknown region

A swarm-based algorithm for optimal spatial coverage of an unknown region

An Introduction to Swarm Robotics

Self-Organized Connectivity Control and Optimization Subjected to Dispersion of Mobile Ad Hoc Sensor Networks

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