Dynamic small-world social network generation through local agent interactions
Dynamic small-world social network generation through local agent interactions
To model agent relationships in agent-based models, it is often necessary to incorporate a social network whose topology is commonly assumed to be “small-world.” This is potentially problematic, as the classification is broad and covers a wide-range of network statistics. Furthermore, real networks are often dynamic, in that edges and nodes can appear or disappear, and spatial, in that connections are influenced by an agent's position within a particular social space. These properties are difficult to achieve in current network formation tools. We have, therefore, developed a novel social network formation model, that creates and dynamically adjusts small-world networks using local spatial interactions, while maintaining tunable global network statistics from across the broad space of possible small-world networks. It is, therefore, a useful tool for multiagent simulations and diffusion processes, particularly those in which agents and edges die or are constrained in their movement within some social space. We also show, using a simple epidemiological diffusion model, that a range of networks can all satisfy the small-world criterion, but behave quite differently. This demonstrates that it is problematic to generalize results across the whole space of small-world networks
agent-based models, dynamic networks, network formation, diffusion process
44-53
De Caux, Robert
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Philippides, Andrew
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Kniveton, Dominic
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Smith, Christopher
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Blakc, Richard
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July 2014
De Caux, Robert
a3e6d29e-ed87-4803-b08d-36392c5bf1dd
Philippides, Andrew
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Kniveton, Dominic
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Smith, Christopher
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Blakc, Richard
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De Caux, Robert, Philippides, Andrew, Kniveton, Dominic, Smith, Christopher and Blakc, Richard
(2014)
Dynamic small-world social network generation through local agent interactions.
[in special issue: Complexity Science and Social Policy]
Complexity, 19 (6), .
(doi:10.1002/cplx.21528).
Abstract
To model agent relationships in agent-based models, it is often necessary to incorporate a social network whose topology is commonly assumed to be “small-world.” This is potentially problematic, as the classification is broad and covers a wide-range of network statistics. Furthermore, real networks are often dynamic, in that edges and nodes can appear or disappear, and spatial, in that connections are influenced by an agent's position within a particular social space. These properties are difficult to achieve in current network formation tools. We have, therefore, developed a novel social network formation model, that creates and dynamically adjusts small-world networks using local spatial interactions, while maintaining tunable global network statistics from across the broad space of possible small-world networks. It is, therefore, a useful tool for multiagent simulations and diffusion processes, particularly those in which agents and edges die or are constrained in their movement within some social space. We also show, using a simple epidemiological diffusion model, that a range of networks can all satisfy the small-world criterion, but behave quite differently. This demonstrates that it is problematic to generalize results across the whole space of small-world networks
Text
DynamicNetworkFinal.pdf
- Accepted Manuscript
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Accepted/In Press date: 3 March 2014
Published date: July 2014
Keywords:
agent-based models, dynamic networks, network formation, diffusion process
Organisations:
Agents, Interactions & Complexity
Identifiers
Local EPrints ID: 383909
URI: http://eprints.soton.ac.uk/id/eprint/383909
PURE UUID: 5bfe3e84-6e15-45ba-a3d8-6211d9f2478d
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Date deposited: 27 Nov 2015 15:22
Last modified: 14 Mar 2024 21:49
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Contributors
Author:
Robert De Caux
Author:
Andrew Philippides
Author:
Dominic Kniveton
Author:
Christopher Smith
Author:
Richard Blakc
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