Virtual reality mobility model for wireless ad hoc networks 被引量：1

Virtual reality mobility model for wireless ad hoc networks

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摘要 For wireless ad hoc networks simulation, node＇s mobility pattern and traffic pattern are two key elements. A new simulation model is presented based on the virtual reality collision detection algorithm in obstacle environment, and the model uses the path planning method to avoid obstacles and to compute the node＇s moving path. Obstacles also affect node＇s signal propagation. Considering these factors, this study implements the mobility model for wireless ad hoc networks. Simulation results show that the model has a significant impact on the performance of protocols. For wireless ad hoc networks simulation, node＇s mobility pattern and traffic pattern are two key elements. A new simulation model is presented based on the virtual reality collision detection algorithm in obstacle environment, and the model uses the path planning method to avoid obstacles and to compute the node＇s moving path. Obstacles also affect node＇s signal propagation. Considering these factors, this study implements the mobility model for wireless ad hoc networks. Simulation results show that the model has a significant impact on the performance of protocols.

作者 Yu Ziyue Gong Bo He Xingui

机构地区 School of Computer Science & Engineering Inst. of Command and Technology of Equipment School of Electronics Engineering and Computer Science

出处《Journal of Systems Engineering and Electronics》 SCIE EI CSCD 2008年第4期819-826,共8页 系统工程与电子技术（英文版）

关键词 wireless ad hoc networks computer simulation network protocols mobility models wireless ad hoc networks, computer simulation, network protocols, mobility models

分类号 TN711 [电子电信—电路与系统]

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参考文献15

1Broch J. A performance comparison of multi-hop wireless ad hoc network routing protocols. Maltz D A, Johnson D B, Hu Y C, et al. MobiCom, Dallas, Texas, 1998: 85-97.
2Johnson David, Maltz David. Dynamic source routing in ad hoe wireless networks. In Mobile Computing. Kluwer Academic Publishers, 1996, chapter 5:153-181.
3Jardosh A, Belding-Royer E M, et al. Real world environment models for mobile ad hoc networks. In the IEEE Journal on Special Areas in Communications-Special Issue on Wireless Ad hoc Networks, 2005, 23(3).
4Bettstetter C. Smooth is better than sharp: a random mobility model for simulation of wireless networks. MSWIM, Rome, Italy, 2001: 19-27.
5Camp T, Boleng J, Davies V. A survey of mobility models for ad hoe network research. Wireless Comm and Mobile Computing (WCMC): Special Issue on Mobile Ad Hoc Networking: Research, Trends, and Applications, 2002, 2(5): 483-502.
6Jardosh A. Towards realistic mobility models for mobile ad hoc networks. Belding-Royer E M, et al. Proc. of MOBICOM, San Diego, CA, 2003.
7Guerin R A. Channel occupancy time distribution in a cellular radio system. IEEE Trans. on Vehicular Technology, 1987, 36(3): 89-99.
8Royer E M. An analysis of the optimum node density for ad hoc mobile networks. Melliar-Smith P M, Moser L E. Proc. of the IEEE International Conference on Communications, Helsinki, Finland, 2001.
9Haas Z J. The performance of query control schemes for the zone routing protocol. Pearlman M R. Proc. of SIGCOMM, Vancouver, British Columbia, 1998: 167-177.
10Shi J Y. Virtual reality: foundation and application. China Science Press, 2002.

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2邹湘军,孙健,何汉武,郑德涛,陈新.虚拟现实技术的演变发展与展望[J].系统仿真学报,2004,16(9):1905-1909. 被引量：283
3郭蕴华,陈定方.面向分布式虚拟设计的协同工作环境研究[J].计算机辅助设计与图形学学报,2005,17(1):143-150. 被引量：18
4LI DeYi,LIU Kun,SUN Yan,HAN MingChang.Emergent computation: Virtual reality from disordered clapping to ordered clapping[J].Science in China(Series F),2008,51(5):449-459. 被引量：2
5Ning-Ning Zhou,Yu-Long Deng.Virtual Reality:A State-of-the-Art Survey[J].International Journal of Automation and computing,2009,6(4):319-325. 被引量：4
6ESSAM A. Elsayed.Enhancing the Accuracy for Target Detection by Using Fast Orthogonal Search (FOS)[J].Computer Aided Drafting,Design and Manufacturing,2010,20(1):93-98. 被引量：1
7陈浩磊,邹湘军,陈燕,陈燕（2）,刘天湖.虚拟现实技术的最新发展与展望[J].中国科技论文在线,2011,6(1):1-5. 被引量：180
8潘志庚,cad.zju.edu.cn,姜晓红,张明敏,石教英.分布式虚拟环境综述[J].软件学报,2000,11(4):461-467. 被引量：121
9ZHANG Jin-ling.Construction of parallel and distributed static simulation system based on augmented reality[J].The Journal of China Universities of Posts and Telecommunications,2012,19(4):117-121. 被引量：1

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3贾姝娟,顾春禄.真空微电子三极管优化设计[J].商品与质量（学术观察）,2013(8):134-134.
4TIAN Ye SHENG Min LI Jiandong ZHANG Yan TANG Di.Energy-based Localized Topology Control Algorithm for Wireless Ad Hoc Networks[J].Chinese Journal of Electronics,2009,18(3):513-518.
5陈昌海,Yin Changchuan,Tang Jingmin,Yue Guangxin.Expected density of progress for wireless ad hoc networks with Nakagami-m fading[J].High Technology Letters,2012,18(2):191-194.
6研究表明碳纳米管在45纳米节点上优于铜[J].纳米科技,2008,5(2):78-78.
7钟文祥.虚拟音箱环绕真情——虚拟Dolby环绕声系统[J].音响技术,2006(9):50-53.
8协议[J].电子科技文摘,2006(2):126-127.
9科学家称存在第三种碳元素结晶[J].精细与专用化学品,2009,17(5):4-4.
10存在第三种碳元素结晶[J].科学世界,2009(4):9-9.

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2008年第4期

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Virtual reality mobility model for wireless ad hoc networks 被引量：1

参考文献15

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引证文献1

二级引证文献7

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