Equipment support agent communication language based on extended FIPA-ACL

被引：0

作者：

Pu W. ^{[1
]}

Li X. ^{[1
]}

机构：

[1] Laboratory of Army Equipment Warfare Simulation, Academy of Army Armored Forces, Beijing

来源：

Xitong Gongcheng Lilun yu Shijian/System Engineering Theory and Practice | 2018年 / 38卷 / 01期

基金：

中国国家自然科学基金;

关键词：

Agent; Agent communication language; Equipment support; FIPA ACL;

D O I：

10.12011/1000-6788(2018)01-0220-09

中图分类号：

学科分类号：

摘要：

Aiming at the problem that the semantic description of primary FIPA-ACL in the equipment support agent communication is not enough, the communication efficiency is low and the semantic recognition is not accurate, design and implementation of agent communication language based on extended FIPA-ACL is proposed. Firstly, the communication performatives of FIPA-ACL are extended, and the formal semantics of the primitive is described. Secondly, the communication ontology is defined. Thirdly, the content grammer is defined and the communication content is described based on FIPA-SL. Finally, the agent communication language is implemented. The feasibility and effectiveness of the proposed language is verified by a study case of military equipment support simulation demonstration and effectiveness evolution system. © 2018, Editorial Board of Journal of Systems Engineering Society of China. All right reserved.

引用

页码：220 / 228

页数：8

共 17 条

[1] Li X., Agent-based Warfare Modeling, (2013)
[2] Wooldridge M.J., Jennings N.R., Intelligent agent: Theory and practice, Knowledge Engineering Review, 10, 2, pp. 115-152, (1995)
[3] Jiang W.J., Zhang L.M., Shi D.J., The sequential logic model to solve the multi-agent dynamic cooperative tasks of complex self-adaptive system, Systems Engineering-Theory & Practice, 32, 6, pp. 1305-1313, (2012)
[4] Sanchez A., Villarrubia G., Zato C., Et al., A gateway protocol based on FIPA-ACL for the new agent platform PANGEA, Advances in Intelligent Systems & Computing, 221, pp. 41-51, (2013)
[5] Huget M.P., Wooldridge M.J., Model checking for ACL compliance verification, Second International Joint Conference on Autonomous Agents & Multiagent System, 2922, pp. 75-90, (2003)
[6] Wang X.H., Chen T.F., Modeling and implementation of intelligent bus dispatch system based on MAS, Computer Engineering & Science, 36, 5, pp. 986-990, (2014)
[7] Tang H.J., Xiong S.Q., Jin Z.Y., Research for simulation of rescue behaviors of industrial accidents based on communication of virtual human, Industrial Safety and Environmental Protection, 41, 1, pp. 81-84, (2015)
[8] Chen M., Stock buying and selling prototype system based on FIPA and real-time agents, Journal of Lanzhou University (Natural Sciences), 5, 1, pp. 126-131, (2009)
[9] Cheng Z.F., Zhang L., Chen J.J., Et al., Developing Multi-agent System with JADE, (2013)
[10] Xiang W.H., Xiong C.Q., Design of argumentation of multi-agent based on JADE, Computer & Digital Engineering, 40, 3, pp. 37-39, (2012)

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