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Despite considerable overlap, a multi-agent system is not always the same as an [[agent-based model]] (ABM).  The goal of an ABM is to search for explanatory insight into the collective behavior of agents (which don't necessarily need to be "intelligent") obeying simple rules, typically in natural systems, rather than in solving specific practical or engineering problems. The terminology of ABM tends to be used more often in the science, and MAS in engineering and technology.<ref name="Niazi-Hussain">{{cite journal |first1=Muaz |last1=Niazi |first2=Amir |last2=Hussain |year=2011 |title=Agent-based Computing from Multi-agent Systems to Agent-Based Models: A Visual Survey |journal=Scientometrics |volume=89 |issue=2 |pages=479–499 |doi=10.1007/s11192-011-0468-9 |url=https://www.researchgate.net/publication/220365334 |format=PDF|arxiv=1708.05872 }}</ref> Applications where multi-agent systems research may deliver an appropriate approach include online trading,<ref>{{cite journal |first1=Alex |last1=Rogers |first2=E. |last2=David |first3=J. |last3=Schiff |first4=N.R. |last4=Jennings |url=http://eprints.ecs.soton.ac.uk/12716/ |title=The Effects of Proxy Bidding and Minimum Bid Increments within eBay Auctions |journal=ACM Transactions on the Web |volume=1 |issue=2 |pages=9–es |year=2007|doi=10.1145/1255438.1255441 |citeseerx=10.1.1.65.4539 }}</ref> disaster response<ref>{{cite journal |first1=Nathan |last1=Schurr |first2=Janusz |last2=Marecki |first3=Milind |last3=Tambe |first4=Paul |last4=Scerri | first5=Nikhil |last5=Kasinadhuni |first6=J.P. |last6=Lewis |url=http://teamcore.usc.edu/papers/2005/SS105SchurrN.pdf |title=The Future of Disaster Response: Humans Working with Multiagent Teams using DEFACTO |year=2005}}</ref><ref>{{cite journal |last1=Genc|first1=Zulkuf  |url=http://www.gdmc.nl/gi4dmdocs/Gi4DM_2012_Genc.pdf |title=Agent-based information infrastructure for disaster management |journal=Intelligent Systems for Crisis Management |pages=349–355 |date=2013|display-authors=etal|doi=10.1007/978-3-642-33218-0_26 |isbn=978-3-642-33217-3 |series=Lecture Notes in Geoinformation and Cartography }}</ref> and social structure modelling.<ref>{{cite journal |first1=Ron |last1=Sun|authorlink1=Ron Sun |first2=Isaac |last2=Naveh |url=http://jasss.soc.surrey.ac.uk/7/3/5.html |title=Simulating Organizational Decision-Making Using a Cognitively Realistic Agent Model |journal=Journal of Artificial Societies and Social Simulation}}</ref>
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Despite considerable overlap, a multi-agent system is not always the same as an [[agent-based model]] (ABM).  The goal of an ABM is to search for explanatory insight into the collective behavior of agents (which don't necessarily need to be "intelligent") obeying simple rules, typically in natural systems, rather than in solving specific practical or engineering problems. The terminology of ABM tends to be used more often in the science, and MAS in engineering and technology.<ref name="Niazi-Hussain">{{cite journal |first1=Muaz |last1=Niazi |first2=Amir |last2=Hussain |year=2011 |title=Agent-based Computing from Multi-agent Systems to Agent-Based Models: A Visual Survey |journal=Scientometrics |volume=89 |issue=2 |pages=479–499 |doi=10.1007/s11192-011-0468-9 |url=https://www.researchgate.net/publication/220365334 |format=PDF|arxiv=1708.05872 }}</ref> Applications where multi-agent systems research may deliver an appropriate approach include online trading,<ref>{{cite journal |first1=Alex |last1=Rogers |first2=E. |last2=David |first3=J. |last3=Schiff |first4=N.R. |last4=Jennings |url=http://eprints.ecs.soton.ac.uk/12716/ |title=The Effects of Proxy Bidding and Minimum Bid Increments within eBay Auctions |journal=ACM Transactions on the Web |volume=1 |issue=2 |pages=9–es |year=2007|doi=10.1145/1255438.1255441 |citeseerx=10.1.1.65.4539 }}</ref> disaster response<ref>{{cite journal |first1=Nathan |last1=Schurr |first2=Janusz |last2=Marecki |first3=Milind |last3=Tambe |first4=Paul |last4=Scerri | first5=Nikhil |last5=Kasinadhuni |first6=J.P. |last6=Lewis |url=http://teamcore.usc.edu/papers/2005/SS105SchurrN.pdf |title=The Future of Disaster Response: Humans Working with Multiagent Teams using DEFACTO |year=2005}}</ref><ref>{{cite journal |last1=Genc|first1=Zulkuf  |url=http://www.gdmc.nl/gi4dmdocs/Gi4DM_2012_Genc.pdf |title=Agent-based information infrastructure for disaster management |journal=Intelligent Systems for Crisis Management |pages=349–355 |date=2013|display-authors=etal|doi=10.1007/_26 |isbn= |series=Lecture Notes in Geoinformation and Cartography }}</ref> and social structure modelling.<ref>{{cite journal |first1=Ron |last1=Sun|authorlink1=Ron Sun |first2=Isaac |last2=Naveh |url=http://jasss.soc.surrey.ac.uk/7/3/5.html |title=Simulating Organizational Decision-Making Using a Cognitively Realistic Agent Model |journal=Journal of Artificial Societies and Social Simulation}}</ref>
    
Despite considerable overlap, a multi-agent system is not always the same as an agent-based model (ABM).  The goal of an ABM is to search for explanatory insight into the collective behavior of agents (which don't necessarily need to be "intelligent") obeying simple rules, typically in natural systems, rather than in solving specific practical or engineering problems. The terminology of ABM tends to be used more often in the science, and MAS in engineering and technology. Applications where multi-agent systems research may deliver an appropriate approach include online trading, disaster response and social structure modelling.
 
Despite considerable overlap, a multi-agent system is not always the same as an agent-based model (ABM).  The goal of an ABM is to search for explanatory insight into the collective behavior of agents (which don't necessarily need to be "intelligent") obeying simple rules, typically in natural systems, rather than in solving specific practical or engineering problems. The terminology of ABM tends to be used more often in the science, and MAS in engineering and technology. Applications where multi-agent systems research may deliver an appropriate approach include online trading, disaster response and social structure modelling.
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Multi-agent systems consist of agents and their environment. Typically multi-agent systems research refers to software agents. However, the agents in a multi-agent system could equally well be robots, humans or human teams. A multi-agent system may contain combined human-agent teams.
 
Multi-agent systems consist of agents and their environment. Typically multi-agent systems research refers to software agents. However, the agents in a multi-agent system could equally well be robots, humans or human teams. A multi-agent system may contain combined human-agent teams.
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多主体系统由'''主体''' '''Agent'''及其所处的环境组成。一般来说,多主体系统研究的是[[软件主体]]。然而,多主体系统中的主体也可以是机器人、人类或人类团体。多主体系统还可以包含人类和其它主体的组合。
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多主体系统由'''主体''' '''Agent'''及其所处的环境组成。典型的多主体系统研究的是[[软件主体]]。然而,多主体系统中的主体也可以是机器人、人类或人类团体。多主体系统还可以包含人类和其它主体的组合。
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Agents can be divided into types spanning simple to complex. Categories include:
 
Agents can be divided into types spanning simple to complex. Categories include:
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主体可以按照从简单到复杂的顺序分为如下几个类型:
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不同主体可以按照从简单到复杂的顺序分为如下几个类型:
    
* Passive agents<ref name=yoann2010>{{citation |first1=Yoann |last1=Kubera |first2=Philippe |last2=Mathieu |first3=Sébastien |last3=Picault |url=http://www.lifl.fr/SMAC/publications/pdf/aamas2010-everything.pdf |title=Everything can be Agent! |journal=Proceedings of the Ninth International Joint Conference on Autonomous Agents and Multi-Agent Systems (AAMAS'2010) |pages=1547–1548 |year=2010 }}</ref> or "agent without goals" (such as obstacle, apple or key in any simple simulation)
 
* Passive agents<ref name=yoann2010>{{citation |first1=Yoann |last1=Kubera |first2=Philippe |last2=Mathieu |first3=Sébastien |last3=Picault |url=http://www.lifl.fr/SMAC/publications/pdf/aamas2010-everything.pdf |title=Everything can be Agent! |journal=Proceedings of the Ninth International Joint Conference on Autonomous Agents and Multi-Agent Systems (AAMAS'2010) |pages=1547–1548 |year=2010 }}</ref> or "agent without goals" (such as obstacle, apple or key in any simple simulation)
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* 被动主体,或者“没有目标的主体”(比如简单仿真中的障碍物、苹果或钥匙)
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* 被动主体,或“无目标的主体”(比如障碍物、苹果或在任何简单仿真中的钥匙)
    
* Active agents<ref name=yoann2010/> with simple goals (like birds in flocking, or wolf–sheep in [[Lotka–Volterra|prey-predator model]])
 
* Active agents<ref name=yoann2010/> with simple goals (like birds in flocking, or wolf–sheep in [[Lotka–Volterra|prey-predator model]])
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