面向智能校园的ZigBee网络性能仿真及可靠路径改进
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摘要
随着IBM提出的“智慧地球”被列为美国国家战略以后,我国国务院总理温家宝在无锡视察时也提出了“感知中国”的思想。作为“智慧地球”、“感知中国”核心的“物联网”在世界各地开始蓬勃的发展。“智能校园”作为“物联网”面向学校的应用领域,引领了包括大学、中学、小学在内的智能化建设和发展的方向。“感知校园”的应用将为提高学校的信息化、管理的高效化以及管理成本的降低,提供强力的技术支持平台。
     ZigBee作为一种新兴的短距离、低速率、低功耗的无线网络技术,非常适合设计智能校园的无线传感器网络WSN。因此研究如何利用ZigBee实现以传感器终端互联为目标的智能校园应用具有非常重要的实用价值。本文旨在研究如何通过ZigBee技术更好的设计智能校园平台,对平台执行性能进行仿真评估,并且对ZigBee执行中的不足进行反馈和改进。
     本文以校园智能化建设应用需要为背景,运用现今世界上非常流行的网络仿真技术,进行基于校园网络的ZigBee性能测试。通过ZigBee设备的组合搭配和ZigBee各层次的参数调整,我们在网络仿真工具中设计出了不同的智能校园应用场景,经过DES和虚拟化技术生成了仿真结果。根据数据报告分析,ZigBee不但可以实现传感器的稳定数据收发和较低的延迟,还支持网络的自组织功能,同时提供了对固定ZigBee设备和移动ZigBee设备的组网支持。仿真环境中,我们比较了ZigBee三种拓扑结构在面向校园应用时性能的差异,以及分析了ZigBee路由在节点不稳定,导致拓扑结构不断变化对网络性能的影响,并且提供了一种基于可靠路径的路由算法,以改善路由算法的性能,通过适应于动态网络拓扑变化的备份路径算法,对网络的吞吐量和延迟问题明显改善。最后证明了ZigBee相比较于Wi-Fi和蓝牙技术,更加适合智能校园的应用。
     物联网的应用包括智能校园、智能家居、智能能源、智能交通、智能医疗等领域。本文以智能校园为代表,描述了ZigBee技术在校园中的使用。为了实现学校管理的高效,我们在智能校园中引入了ZigBee网关。通过ZigBee网关,既可以实现对GSM手机网络的连接,又能实现计算机网络的接入功能。而智能校园的建设,主要是考虑ZigBee网络如何跟现有的校园网实现无缝连接。这里我们的思路是,ZigBee不是对现有校园网建设的全盘否定,而是可以在现有网络环境的基础之上,为智能校园的应用提供更为有效的补充。
     智能校园的出现是社会生活发展的必然趋势。ZigBee作为智能校园技术应用尚处于萌芽阶段,但随着技术发展的日渐成熟,学校智能化系统也将不断完善,促使教育质量和教育水平迈向新的高度。
As IBM's "wisdom of the Earth" is classified as the national strategy of the United States, China's Premier Wen Jiabao visited in Wuxi, also proposed the "Experience China" ideology. "Internet of things", as the core of "Earth Wisdom" and "Experience China" has begun to flourish in the development of the world. "Smart Campus" as the applications of "Internet of Things" for school, leading the direction of construction and development of Smart Campus, including universities, secondary schools, primary schools. The application of "Experience the campus," will enhance the school's information, and management of efficient and lower cost of management, to provide strong technical support platform for campus.
     ZigBee, as a new wireless network technology of short-range, low rate, low-power, is very suitable as the wireless sensor networks (also known as WSN) of Smart Campus. Therefore, the research of how to use ZigBee to realize the target object of things-things internet for the applications of "Internet of Things" has a very important practical value. This paper aims to study how to better design ZigBee technology platform for smart campus, the implementation of performance evaluation on the platform, and the lack of implementation for the ZigBee feedback and improvement.
     This paper takes the needs of campus intellectualization construction application as the background. Under the utilization of the extremely popular network simulation technology nowadays in the world, we carry on the ZigBee performance test. We design different scenarios for Smart Campus applications in network simulation tools, and generate the simulation result by the Discrete Event Simulation (also known as DES) and virtualization technology. By analyzing the data of the report, ZigBee can not only achieve a steady rate and a lower delay in sending and receiving data by sensors, but also support self-healing mechanism, while providing supporting networking ability for fixed and removable ZigBee devices at the same time. In the simulation environment, we also compared the performance difference of campus-oriented, and analysis of the ZigBee routing nodes instability, leading to the changing topology of the impact on network performance and provides a reliable path-based routing algorithm to improve the performance of the ZigBee routing algorithm, by the backup path algorithm adapting to dynamic network topology changes, the network throughput and latency improved significantly. Finally, we prove in the ZigBee, compared to Wi-Fi and Bluetooth technology, more suitable for the application of Smart Campus.
     Internet of Things applications includes smart campus, smart home, intelligent energy, intelligent transportation, intelligent medical, and other fields. Represented as an intelligent campus, the paper described the ZigBee technology applications on campus. In order to achieve efficient school management, we have introduced the ZigBee Smart campus gateway. Through ZigBee gateway, both on the GSM mobile network can achieve the connection, but also by computer network access. Here we point out, ZigBee is not think the existing campus network construction as the overall repudiate, but in the basis of the existing network environment to provide more effective supplement for applications of smart campus.
     The emergence of Smart Campus is the inevitable trend of development of social life. ZigBee as a technology for Smart Campus is still in its infancy, but as the technology matures, the school intelligent systems will continue to improve, to promote education quality and level of education to a new height.
引文
[1]《温家宝:物联网等新兴产业将成扶持重点》,中国智能家居网,http://www.smarthomecn.com/html/2010-07/14045.html
    [2]Andrew S.Tanenbaum,《计算机网络》(第三版),清华大学出版社,1998年7月
    [3]《ZIGBEE SPECIFICATION》,http://www.zigbee.org
    [4]李文忠、段朝玉,《ZigBee无线网络技术入门与实战》[M],北京:北京航空航天大学出版社,2007
    [5]TL.《A true system-on-chip solution for 2.4GHz IEEE 802.15.4/ZigBee》 [EB/OL].2010-1-20.http://focus.ti.com/lit/ds/symlink/cc2430.pdf
    [6]陈敏《OPNET网络仿真》[M],清华大学出版社,2004
    [7]石怀伟、王华、张念军、赵林胜、吕同光,《OPNET网络仿真技术及其应用分析》[期刊论文].计算机工程与设计2006(17)
    [8]付芳、张思东、顾瑞红,《基于IEEE802.15.4和Zigbee构建低速无线个域网》[J],移动通信,2005.7
    [9]林旭东,《智能家居系统相关技术及发展趋势》[J],科技创新导报,2008年第6期
    [10]张莉,《ZigBee技术在物联网中的应用》,电信网技术,2010年3月第3期
    [11]朱思昀,《基于IEEE802_15_4的数字化家庭应用研究》[学位论文],2007年10月
    [12]牛斗,朴勇惺,王婷婷,《智能小区远程抄表系统的实现》,微计算机信息,2010年第26卷
    [13]孟玲玲,王振翀,周俊超,《基于能耗均衡的矿井皮带无线传感器网络构建》,电子设计工程,2010年第3期
    [14]张延丽,《基于ZigBee的智能家居室内网络系统设计》,研究生学位论文,2008年12月
    [15]李娜,《基于ZigBee的无线传感器网络在工业检测中的应用》,研究生学位论文,2009年5月
    [16]马季,《智能家居远程监控系统的研究与实现》,研究生学位论文,2009年6月
    [17]王春艳,《IEEE802.15. 4协议仿真与研究》,研究生学位论文,2008年6月
    [18]马朋太,《近在眼前的物联网》,中国县域经济报,2010年5月27日,第5版
    [19]张艳婷,《基于ZigBee技术的家用无线网关的设计》,山西电子技术,2010年第2期
    [20]S. Kim. W. Noh, and S. An,Multi-Path Ad Hoc Routing Considering Path Redundancy.Computers and Communication(ISCC'03),2003,5:45-50
    [21]黄鹂声,周明天,汪文勇,《大型网络健康度的快速评估方法》,电子科技大学学报,2007年第6期
    [22]侯宏录,杨朋伟,黄钉劲,《二层拓扑结构的ZigBee时间同步算法》,西安工业大学学报,2008年第3期
    [23]鹿凯宁,及晓梅,杜蓓蓓,《带负载信息的Ad Hoc网络路由》,计算机应用,2003年6月
    [24]姜文刚,蔡蓝图,《智能家居无线传感器网络的研究》,江苏科技大学学报(自然科学版),2010年第2期
    [25]Song Guangming, Ding Fei, Zhang Weijuan, et al A wireless power outlet system for smart homes[J], IEEE Transactions on Consumer Electronics,2008, 54 (4):1688-1691
    [26]马荣祥,《一种智能家居系统复合型网关的设计》,电子测量技术,2010年第4期
    [27]金海红,《一种无线传感器网络ZigBee通信平台的设计》[J],国外电子测量技术,2008,27(11):60-62
    [28]张晴晖,李俊萩,张宏翔等,《基于ZigBee的环境检测系统的设计》[J],国外电子测量技术,2010,29(1):46-48
    [29]李晓维,无线传感器网络技术,北京理工大学出版社,2007
    [30]金纯,罗祖秋,罗凤等,ZigBee技术基础及案例分析,国防工业出版社,2008
    [31]何廷润,《3G+WLAN迎来物联网承载技术,同时面临三大挑战》,通信产业报,2010年5月
    [32]杨东,马良,《基于OPnet的局域网拓扑建模仿真》,《国外电子元器件》,2008年第12期
    [33]闫晓媛,徐志文,《OPnet用于简单网络设计》,中国科教创新导刊,2009年

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