Optimal environmental simulation settings to observe exceptional events in social agent societies

Social norms learning in agent societies through reward or penalty observations have become the subject of interest in many studies. However, very few studies have examined the optimal environmental settings that would allow agents to learn through such observations effectively. This study presents...

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Main Authors: Mahmoud, M.A., Ahmad, M.S., Ahmad, A., Mustapha, A., Yusoff, M.Z.M., Hamid, N.H.A.
Format: Article
Language:English
Published: 2017
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spelling my.uniten.dspace-1532018-01-25T02:46:15Z Optimal environmental simulation settings to observe exceptional events in social agent societies Mahmoud, M.A. Ahmad, M.S. Ahmad, A. Mustapha, A. Yusoff, M.Z.M. Hamid, N.H.A. Simulation model Normative system Intelligent software agent Exceptional events observation Social norms learning in agent societies through reward or penalty observations have become the subject of interest in many studies. However, very few studies have examined the optimal environmental settings that would allow agents to learn through such observations effectively. This study presents a combination of environmental simulation parameters to discover the optimal settings for observing reward or penalty events, which are called the exceptional events, within a social agent group. The environmental settings consist of several variables which are the cycle time, observation limit of detector agent, domain size, population density of domain agents and occurrence of reward or penalty (exceptional) events in the domain. The value of each variable is arbitrarily set to low, medium or high. To implement the simulation, a virtual environment has been created with the variables settings to examine different situations. Within the steps of the tests, some cases are excluded because they do not significantly contribute to optimal environment for social learning. The results of the tests show that each variable has different effect on the environment and that a variable that has a strong positive effect does not individually offer the optimal solution. However, combining variables that have strong positive effects could offer optimal solutions. Briefly, the study aims to examine and identify the effect of some environmental variables on observation process of exceptional events and suggests the optimal settings to learn through observation. © 2013 Asian Network for Scientific Information. 2017-07-19T03:11:15Z 2017-07-19T03:11:15Z 2013 Article https://www.scopus.com/inward/record.uri?eid=2-s2.0-84887528337&doi=10.3923%2fjai.2013.191.209&partnerID=40&md5=dcefbf7f99d5b7aa2b4576efd1914cb6 https://pure.uniten.edu.my/en/persons/azhana-ahmad/publications/ 10.3923/jai.2013.191.209 2-s2.0-84887528337 en Journal of Artificial Intelligence
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
language English
topic Simulation model
Normative system
Intelligent software agent
Exceptional events observation
spellingShingle Simulation model
Normative system
Intelligent software agent
Exceptional events observation
Mahmoud, M.A.
Ahmad, M.S.
Ahmad, A.
Mustapha, A.
Yusoff, M.Z.M.
Hamid, N.H.A.
Optimal environmental simulation settings to observe exceptional events in social agent societies
description Social norms learning in agent societies through reward or penalty observations have become the subject of interest in many studies. However, very few studies have examined the optimal environmental settings that would allow agents to learn through such observations effectively. This study presents a combination of environmental simulation parameters to discover the optimal settings for observing reward or penalty events, which are called the exceptional events, within a social agent group. The environmental settings consist of several variables which are the cycle time, observation limit of detector agent, domain size, population density of domain agents and occurrence of reward or penalty (exceptional) events in the domain. The value of each variable is arbitrarily set to low, medium or high. To implement the simulation, a virtual environment has been created with the variables settings to examine different situations. Within the steps of the tests, some cases are excluded because they do not significantly contribute to optimal environment for social learning. The results of the tests show that each variable has different effect on the environment and that a variable that has a strong positive effect does not individually offer the optimal solution. However, combining variables that have strong positive effects could offer optimal solutions. Briefly, the study aims to examine and identify the effect of some environmental variables on observation process of exceptional events and suggests the optimal settings to learn through observation. © 2013 Asian Network for Scientific Information.
format Article
author Mahmoud, M.A.
Ahmad, M.S.
Ahmad, A.
Mustapha, A.
Yusoff, M.Z.M.
Hamid, N.H.A.
author_facet Mahmoud, M.A.
Ahmad, M.S.
Ahmad, A.
Mustapha, A.
Yusoff, M.Z.M.
Hamid, N.H.A.
author_sort Mahmoud, M.A.
title Optimal environmental simulation settings to observe exceptional events in social agent societies
title_short Optimal environmental simulation settings to observe exceptional events in social agent societies
title_full Optimal environmental simulation settings to observe exceptional events in social agent societies
title_fullStr Optimal environmental simulation settings to observe exceptional events in social agent societies
title_full_unstemmed Optimal environmental simulation settings to observe exceptional events in social agent societies
title_sort optimal environmental simulation settings to observe exceptional events in social agent societies
publishDate 2017
_version_ 1644492216898420736
score 13.214268