Trade-offs of dynamic control structure in human-swarm systems
Trade-offs of dynamic control structure in human-swarm systems
Swarm robotics is a study of simple robots that exhibit complex behaviour only by interacting locally with other robots and their environment. The control in swarm robotics is mainly distributed whereas centralised control is widely used in other fields of robotics. Centralised and decentralised control strategies both pose a unique set of benefits and drawbacks for the control of multi-robot systems. While decentralised systems are more scalable and resilient, they are less efficient compared to the centralised systems and they lead to excessive data transmissions to the human operators causing cognitive overload. We examine the trade-offs of each of these approaches in a human-swarm system to perform an environmental monitoring task and propose a flexible hybrid approach, which combines elements of hierarchical and decentralised systems. We find that a flexible hybrid system can outperform a centralised system (in our environmental monitoring task by 19.2%) while reducing the number of messages sent to a human operator (here by 23.1%). We conclude that establishing centralisation for a system is not always optimal for performance and that utilising aspects of centralised and decentralised systems can keep the swarm from hindering its performance.
Kelly, Thomas Graham
6f1f966b-28b8-4d81-a5c1-0adf18fbe225
Soorati, Mohammad
35fe6bbb-ce52-4c21-a46e-9bb0e31d246c
Zauner, Klaus-Peter
c8b22dbd-10e6-43d8-813b-0766f985cc97
Ramchurn, Gopal
1d62ae2a-a498-444e-912d-a6082d3aaea3
Tarapore, Danesh
fe8ec8ae-1fad-4726-abef-84b538542ee4
Kelly, Thomas Graham
6f1f966b-28b8-4d81-a5c1-0adf18fbe225
Soorati, Mohammad
35fe6bbb-ce52-4c21-a46e-9bb0e31d246c
Zauner, Klaus-Peter
c8b22dbd-10e6-43d8-813b-0766f985cc97
Ramchurn, Gopal
1d62ae2a-a498-444e-912d-a6082d3aaea3
Tarapore, Danesh
fe8ec8ae-1fad-4726-abef-84b538542ee4
Kelly, Thomas Graham, Soorati, Mohammad, Zauner, Klaus-Peter, Ramchurn, Gopal and Tarapore, Danesh
(2024)
Trade-offs of dynamic control structure in human-swarm systems.
In The International Symposium on Distributed Autonomous Robotic Systems (DARS) 2024.
(In Press)
Record type:
Conference or Workshop Item
(Paper)
Abstract
Swarm robotics is a study of simple robots that exhibit complex behaviour only by interacting locally with other robots and their environment. The control in swarm robotics is mainly distributed whereas centralised control is widely used in other fields of robotics. Centralised and decentralised control strategies both pose a unique set of benefits and drawbacks for the control of multi-robot systems. While decentralised systems are more scalable and resilient, they are less efficient compared to the centralised systems and they lead to excessive data transmissions to the human operators causing cognitive overload. We examine the trade-offs of each of these approaches in a human-swarm system to perform an environmental monitoring task and propose a flexible hybrid approach, which combines elements of hierarchical and decentralised systems. We find that a flexible hybrid system can outperform a centralised system (in our environmental monitoring task by 19.2%) while reducing the number of messages sent to a human operator (here by 23.1%). We conclude that establishing centralisation for a system is not always optimal for performance and that utilising aspects of centralised and decentralised systems can keep the swarm from hindering its performance.
This record has no associated files available for download.
More information
Accepted/In Press date: 2024
Identifiers
Local EPrints ID: 492838
URI: http://eprints.soton.ac.uk/id/eprint/492838
PURE UUID: b317b230-7423-4ce7-a763-120e339d47ea
Catalogue record
Date deposited: 15 Aug 2024 16:57
Last modified: 16 Aug 2024 01:59
Export record
Contributors
Author:
Thomas Graham Kelly
Author:
Mohammad Soorati
Author:
Klaus-Peter Zauner
Author:
Gopal Ramchurn
Author:
Danesh Tarapore
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics