An Experiment in Automatic Design of Robot Swarms

Francesca, Gianpiero; Brambilla, Manuele; Brutschy, Arne; Garattoni, Lorenzo; Miletitch, Roman; Podevijn, Gaëtan; Reina, Andreagiovanni; Soleymani, Touraj; Salvaro, Mattia; Pinciroli, Carlo; Trianni, Vito; Birattari, Mauro

doi:10.1007/978-3-319-09952-1_3

Cited by 21 publications

(16 citation statements)

References 8 publications

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“…The empirical studies presented in the paper are unprecedented in the domain of the automatic design of control software for robot swarms-they comprise 350 runs with a swarm of 20 robots; a total of five methods are tested on five tasks. This paper is an extended version of Francesca et al (2014b), which was presented at ANTS 2014. The results of Study A were already contained in Francesca et al (2014b), while the ones of Study B are presented here for the first time.…”

Section: Introductionmentioning

confidence: 99%

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AutoMoDe-Chocolate: automatic design of control software for robot swarms

et al. 2015

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We present two empirical studies on the design of control software for robot swarms. In Study A, Vanilla and EvoStick, two previously published automatic design methods, are compared with human designers. The comparison is performed on five swarm robotics tasks that are different from those on which Vanilla and EvoStick have been previously tested. The results show that, under the experimental conditions considered, Vanilla performs better than EvoStick, but it is not able to outperform human designers. The results indicate that Vanilla's weak element is the optimization algorithm employed The main contributors to this research are G. Francesca and M. Birattari. AutoMoDe and Vanilla were conceived and developed by G. Francesca, M. Brambilla, A. Brutschy, V. Trianni, and M. Birattari.123 Swarm Intell to search the space of candidate designs. To improve over Vanilla and with the final goal of obtaining an automatic design method that performs better than human designers, we introduce Chocolate, which differs from Vanilla only in the fact that it adopts a more powerful optimization algorithm. In Study B, we perform an assessment of Chocolate. The results show that, under the experimental conditions considered, Chocolate outperforms both Vanilla and the human designers. Chocolate is the first automatic design method for robot swarms that, at least under specific experimental conditions, is shown to outperform a human designer.

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Section: Introductionmentioning

confidence: 99%

“…This paper is an extended version of Francesca et al (2014b), which was presented at ANTS 2014. The results of Study A were already contained in Francesca et al (2014b), while the ones of Study B are presented here for the first time.…”

Section: Introductionmentioning

confidence: 99%

AutoMoDe-Chocolate: automatic design of control software for robot swarms

et al. 2015

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“…Communication can take place using explicit messages [115,116,117,118,119], or implicitly, by sensing the nearby presence and relative position of other robots [106,115,120,121,122,123,124,125,126,127]. Information acquired from nearby robots can be used to implement simple mechanisms of robot avoidance [123], or, more often, to regulate the position and velocity of a robot according to a desired behavior.…”

Section: Direct Communicationmentioning

confidence: 99%

“…Podury and Sukhatme [121] used potential fields to maximize the area covered by a swarm of robots with defined sensing and communication ranges, with the constraint that each robot must stay within communication range of a minimum number of other robots. In [127], the task of maximizing the area covered by a swarm of connected robots is tackled with an automatic design method using probabilistic finite state machines, where parameters of robot controllers are selected with an optimization algorithm.…”

Section: Dispersionmentioning

confidence: 99%

A review of swarm robotics tasks

2016

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“…Recent experiments have shown that both manual and automated swarm design methodologies significantly benefit from being constrained to a set of possible robot behaviours, as opposed to being open-ended (Francesca et al 2014). Using the ICR framework, we could identify such behaviour sets by studying how different parts of robot control algorithms affect the overall swarm performance.…”

Section: The Icr Framework and Future Workmentioning

confidence: 99%

The Information-Cost-Reward framework for understanding robot swarm foraging

2017

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Demand for autonomous swarms, where robots can cooperate with each other without human intervention, is set to grow rapidly in the near future. Currently, one of the main challenges in swarm robotics is understanding how the behaviour of individual robots leads to an observed emergent collective performance. In this paper, a novel approach to understanding robot swarms that perform foraging is proposed in the form of the InformationCost-Reward (ICR) framework. The framework relates the way in which robots obtain and share information (about where work needs to be done) to the swarm's ability to exploit that information in order to obtain reward efficiently in the context of a particular task and environment. The ICR framework can be applied to analyse underlying mechanisms that lead to observed swarm performance, as well as to inform hypotheses about the suitability of a particular robot control strategy for new swarm missions. Additionally, the informationcentred understanding that the framework offers paves a way towards a new swarm design methodology where general principles of collective robot behaviour guide algorithm design.

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An Experiment in Automatic Design of Robot Swarms

Cited by 21 publications

References 8 publications

AutoMoDe-Chocolate: automatic design of control software for robot swarms

AutoMoDe-Chocolate: automatic design of control software for robot swarms

A review of swarm robotics tasks

The Information-Cost-Reward framework for understanding robot swarm foraging

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