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Outlining the design space of eXplainable Swarm (xSwarm): experts’ perspective

Outlining the design space of eXplainable Swarm (xSwarm): experts’ perspective
Outlining the design space of eXplainable Swarm (xSwarm): experts’ perspective
In swarm robotics, agents interact through local roles to solve complex tasks beyond an individual’s ability. Even though swarms are capable of carrying out some operations without the need for human intervention, many safety-critical applications still call for human operators to control and monitor the swarm. There are novel challenges to effective Human-Swarm Interaction (HSI) that are only beginning to be addressed. Explainability is one factor that can facilitate effective and trustworthy HSI and improves the overall performance of Human-Swarm team. Explainability was studied across various Human-AI domains, such as Human-Robot Interaction and Human-Centered ML. However, it is still ambiguous whether explanations studied in Human-AI literature would be beneficial in Human-Swarm research and development. Furthermore, the literature lacks foundational research on the prerequisites for explainability requirements in swarm robotics, i.e., what kind of questions an explainable swarm is expected to answer, and what types of explanations a swarm is expected to generate. By surveying 26 swarm experts, we seek to answer these questions and identify challenges experts faced to generate explanations in Human-Swarm environments. Our work contributes insights into defining a new area of research of eXplainable Swarm (xSwarm) which looks at how explainability can be implemented and developed in swarm systems. This paper opens discussion on xSwarm and paves the way for more research in the field.

2511-1264
28-41
Springer
Naiseh, Mohammad
ab9d6b3c-569c-4d7c-9bfd-61bbb8983049
Soorati, Mohammad
35fe6bbb-ce52-4c21-a46e-9bb0e31d246c
Ramchurn, Sarvapali
3a29ed1a-b9d7-4f43-899b-c958a3026582
Naiseh, Mohammad
ab9d6b3c-569c-4d7c-9bfd-61bbb8983049
Soorati, Mohammad
35fe6bbb-ce52-4c21-a46e-9bb0e31d246c
Ramchurn, Sarvapali
3a29ed1a-b9d7-4f43-899b-c958a3026582

Naiseh, Mohammad, Soorati, Mohammad and Ramchurn, Sarvapali (2024) Outlining the design space of eXplainable Swarm (xSwarm): experts’ perspective. In Distributed Autonomous Robotic Systems. Springer. pp. 28-41 . (doi:10.1007/978-3-031-51497-5_3).

Record type: Conference or Workshop Item (Paper)

Abstract

In swarm robotics, agents interact through local roles to solve complex tasks beyond an individual’s ability. Even though swarms are capable of carrying out some operations without the need for human intervention, many safety-critical applications still call for human operators to control and monitor the swarm. There are novel challenges to effective Human-Swarm Interaction (HSI) that are only beginning to be addressed. Explainability is one factor that can facilitate effective and trustworthy HSI and improves the overall performance of Human-Swarm team. Explainability was studied across various Human-AI domains, such as Human-Robot Interaction and Human-Centered ML. However, it is still ambiguous whether explanations studied in Human-AI literature would be beneficial in Human-Swarm research and development. Furthermore, the literature lacks foundational research on the prerequisites for explainability requirements in swarm robotics, i.e., what kind of questions an explainable swarm is expected to answer, and what types of explanations a swarm is expected to generate. By surveying 26 swarm experts, we seek to answer these questions and identify challenges experts faced to generate explanations in Human-Swarm environments. Our work contributes insights into defining a new area of research of eXplainable Swarm (xSwarm) which looks at how explainability can be implemented and developed in swarm systems. This paper opens discussion on xSwarm and paves the way for more research in the field.

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More information

e-pub ahead of print date: 1 February 2024
Venue - Dates: Distributed Autonomous Robotic Systems, France, Montbéliard, France, 2022-11-28 - 2022-11-30
Learn more about Agents, Interactions and Complexity research

Identifiers

Local EPrints ID: 502351
URI: http://eprints.soton.ac.uk/id/eprint/502351
DOI: doi:10.1007/978-3-031-51497-5_3
ISSN: 2511-1264
PURE UUID: 077a5e46-3d18-4973-958a-ae1b83306487
ORCID for Mohammad Naiseh: ORCID iD orcid.org/0000-0002-4927-5086
ORCID for Mohammad Soorati: ORCID iD orcid.org/0000-0001-6954-1284

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Date deposited: 24 Jun 2025 16:33
Last modified: 25 Jun 2025 01:59

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Contributors

Author: Mohammad Naiseh ORCID iD
Author: Mohammad Soorati ORCID iD
Author: Sarvapali Ramchurn

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