The impact of agent density on scalability in collective systems: noise-induced versus majority-based bistability

Khaluf, Yara; Pinciroli, Carlo; Valentini, Gabriele; Hamann, Heiko

doi:10.1007/s11721-017-0137-6

Cited by 32 publications

(32 citation statements)

References 43 publications

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“…In collective decision-making systems, the interplay between social feedback and noise (e.g. individual exploration) has a crucial role in determining the collective coherence of the group (Khaluf et al 2017b(Khaluf et al , 2018Rausch et al 2019). While a general solution to design any adaptive decision-making system is not yet in reach, our goal is to advance the understanding of the interplay between noise and social feedback in collective systems by taking a bottom-up approach and by using particular case studies as a starting point for the investigation of underlying fundamental properties.…”

Section: Introductionmentioning

confidence: 99%

Coherent collective behaviour emerging from decentralised balancing of social feedback and noise

et al. 2019

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Decentralised systems composed of a large number of locally interacting agents often rely on coherent behaviour to execute coordinated tasks. Agents cooperate to reach a coherent collective behaviour by aligning their individual behaviour to the one of their neighbours. However, system noise, determined by factors such as individual exploration or errors, hampers and reduces collective coherence. The possibility to overcome noise and reach collective coherence is determined by the strength of social feedback, i.e. the number of communication links. On the one hand, scarce social feedback may lead to a noise-driven system and consequently incoherent behaviour within the group. On the other hand, excessively strong social feedback may require unnecessary computing by individual agents and/or may nullify the possible benefits of noise. In this study, we investigate the delicate balance between so

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Section: Introductionmentioning

confidence: 99%

Coherent collective behaviour emerging from decentralised balancing of social feedback and noise

et al. 2019

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“…For example, a high level of noise may exceed the influence of the feedback loops and hence keep the system in an undecided state. Similarly, applying a strong enough positive feedback around a particular option may push the system to decide in favor of that particular option even in cases of low system densities-i.e., low number of feedback loops [17]. In this paper, we show that the interaction model is a key parameter to tune the balance between feedback loops and noise such that the collective system becomes decided even under significant noise levels.…”

Section: Introductionmentioning

confidence: 90%

The Impact of Interaction Models on the Coherence of Collective Decision-Making: A Case Study with Simulated Locusts

Khaluf

Rausch

Simoens

2018

Lecture Notes in Computer Science

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A key aspect of collective systems resides in their ability to exhibit coherent behaviors, which demonstrate the system as a single unit. Such coherence is assumed to be robust under local interactions and high density of individuals. In this paper, we go beyond the local interactions and we investigate the coherence degree of a collective decision under different interaction models: (i) how this degree may get violated by massive loss of interaction links or high levels of individual noise, and (ii) how efficient each interaction model is in restoring a high degree of coherence. Our findings reveal that some of the interaction models facilitate a significant recovery of the coherence degree because their specific inter-connecting mechanisms lead to a better inference of the swarm opinion. Our results are validated using physics-based simulations of a locust robotic swarm.

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“…The modeling and regulation of interference in swarm robotic systems is a widely studied topic (e.g., see [8], [20], [21]). The effects of interference on the efficiency of a swarm have been studied experimentally e.g., [4], [9], [22], [23], and by developing analytical models [11], [21]. Techniques to regulate interference range from performing "aggression" maneuvers to break deadlocks [4], [24], partitioning robots among tasks [25], and team size selection before deploying the swarm [26].…”

Section: Related Workmentioning

confidence: 99%

Voluntary Retreat for Decentralized Interference Reduction in Robot Swarms

Mayya

Pierpaoli

Egerstedt

2019

2019 International Conference on Robotics and Automation (ICRA)

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In densely-packed robot swarms operating in confined regions, spatial interference -which manifests itself as a competition for physical space -forces robots to spend more time navigating around each other rather than performing the primary task. This paper develops a decentralized algorithm that enables individual robots to decide whether to stay in the region and contribute to the overall mission, or vacate the region so as to reduce the negative effects that interference has on the overall efficiency of the swarm. We develop this algorithm in the context of a distributed collection task, where a team of robots collect and deposit objects from one set of locations to another in a given region. Robots do not communicate and use only binary information regarding the presence of other robots around them to make the decision to stay or retreat. We illustrate the efficacy of the algorithm with experiments on a team of real robots.

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The impact of agent density on scalability in collective systems: noise-induced versus majority-based bistability

Cited by 32 publications

References 43 publications

Coherent collective behaviour emerging from decentralised balancing of social feedback and noise

Coherent collective behaviour emerging from decentralised balancing of social feedback and noise

The Impact of Interaction Models on the Coherence of Collective Decision-Making: A Case Study with Simulated Locusts

Voluntary Retreat for Decentralized Interference Reduction in Robot Swarms

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