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基于TinyOS平台的RSSI定位系统设计与实现 被引量:3

Design and Implement of RSSI Positioning System on TinyOS Platform
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摘要 RSSI定位算法是无线传感网络节点定位中一种常用的定位算法,文中以Crossbow公司提供的iris节点及MIB520接口板为硬件平台,以TinyOS操作系统支持的NesC语言为软件操作平台,设计了RSSI定位系统。分别在室内和室外两种环境下对其进行实验验证,证明了系统的有效性。 RSSI localization algorithm is a common localization algorithm for wireless sensor network node local- ization. RSSI positioning system is designed based on the software platform of NesC language and the hardware plat- form that includes the iris node and mib520 interface board environments prove the validity of the system provided by Crossbow. Experiments in indoor and outdoor
作者 乔钢柱 李雪莲 曾建潮
机构地区 太原科技大学电子信息工程学院
出处 《电子科技》 2013年第2期90-93,96,共5页 Electronic Science and Technology
基金 国家自然科学基金资助项目(41140026 60975074)
关键词 无线传感网络 TINYOS操作系统 NesC语言 RSSI定位算法 wireless sensor network TinyOS operating system NesC language RSSI localization algorithm
分类号 TP212.9 [自动化与计算机技术—检测技术与自动化装置]
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参考文献7

  • 1LEVI P, MADDEN S, POLASTRE J, et al. TinyOS : An oper- ating system forwireless sensor networks [ C]. Berlin: Pro- ceedings of the 7 th In2 Ternational Conference on Mobile Data Management ( MDM 2006) ,2005 : 115 - 148.
  • 2李丽娜,石高涛,廖明宏.传感器网络操作系统TinyOS关键技术分析[J].哈尔滨商业大学学报(自然科学版),2005,21(6):724-727. 被引量:22
  • 3李晶,王福豹,段渭军.无线传感器网络中TinyOS的研究[J].计算机测量与控制,2006,14(6):838-840. 被引量:30
  • 4CROSSBOW. Mica2 wireless measurement system[ EB/OL] ( 2004 - 05 - 16 ) [ 2012 - 05 - 30 ] http ://www. xbow. com.
  • 5CROSSBOW. Mica2 dot wireless microsensor mote [ EB/OL] ( 2004 - 08 - 12) [ 2012 - 03 - 24 ] http ://www. xbow. com.
  • 6汪炀,黄刘生,肖明军,徐宏力.一种基于RSSI校验的无线传感器网络节点定位算法[J].小型微型计算机系统,2009,30(1):59-62. 被引量:36
  • 7SAVARESE C, RABAEY J M, BEUTEL J. Locationing in dist ributed Ad2Hoc wireless sensor network :C]. Salt Lake: Proc. of the 2001 IEEE Int'l Conf. on Acoustics, Speech and Signal, IEEE Signal Processing Society,2001.

二级参考文献28

  • 1王福豹,史龙,任丰原.无线传感器网络中的自身定位系统和算法[J].软件学报,2005,16(5):857-868. 被引量:672
  • 2Langendoen K, Reijers N. Distributed localization in wireless sensor networks: a quantitative comparison[J]. Computer Net-works, 2003, (43) : 499-518.
  • 3Harter A, Hopper A, Steggles P, et al. The anatomy of a context-aware application[M]. MobiCom,1999, Seattle, Washington, USA.
  • 4Girod L,Estrin D. Robust range estimation using acoustic and multimodal sensing[C]. Proc. of the IEEE/RSJ Int'1 Conf. on Intelligent Robots and Systems(IROS 01), Maui,Hawaii,USA, 2001,3 : 1312-1320.
  • 5Niculescu D, Nath B. Ad hoc positioning system (APS) using AoA[C]. IEEE INFOCOM, 2003, San Francisco California, USA.
  • 6Girod L, Bychovskiy V, Elson J,et al. Locating tiny sensors in time and space: a ease study[C]. IEEE ICCD, 2002, Freiburg, Germany.
  • 7Elnahrawy E, Li X, Martin R P. The limits of localization using signal strength: a comparative study[C]. IEEE SECON, 2004, Santa Clara, CA, USA.
  • 8Bulusu N, Heidemann J, Estrin D. GPS-less low cost outdoor localization for very small devices['C]. IEEE Personal Communications Magazine. October,2000.
  • 9Niculescu D, Nath B. DV based positioning in ad hoe networks [J]. Kluwer Journal of Telecommunication Systems, 2003, (22):267-280.
  • 10Shang Y, Ruml W, Zhang Y, et al. Localization from mere connectivity[M]. MobiHoc 2003, Annapolis, MD, USA.

共引文献80

同被引文献30

  • 1李志俊,程家兴.免疫佳点集遗传算法[J].计算机工程与应用,2007,43(28):37-40. 被引量:5
  • 2DOHERTY L, EL GHAOUI L. Convex position estima- tion in wireless sensor networks [ C ]. INFOCOM 2001. Twentieth Annual Joint Conference of the IEEE Computer and Communications Societies. Proceedings. IEEE. IEEE, 2001, 3: 1655-1663.
  • 3SHANG Y, RUML W, ZHANG Y, et al. Localization from mere connectivity [ C]. Proceedings of the 4th ACM international symposium on Mobile ad hoc networking & computing. ACM, 2003: 201-212.
  • 4ECKERT J, VILLANUEVA F, GERMAN R, et al. Dis- tributed mass-spring-relaxation for anchor-free self-locali- zation in sensor and actor networks [ C ]. Computer Com- munications and Networks (ICCCN), 2011.Proceedings of 20th International Conference on. IEEE, 2011: 1-8.
  • 5MEERTENS L, FITZPATRICK S. The distributed construc- tion of a global coordinate system in a network of static com- putational nodes from inter-node distances [ J ]. Kestrel In- stitute TR KES. U, 2004, 4.
  • 6MOORE D, LEONARD J, RUS D, et al. Robust distrib- uted network localization with noisy range measurements [ C]. Proceedings of the 2nd international conference on Embedded networked sensor systems. ACM, 2004: 50-61.
  • 7MONIR VAGHEFI S Y, VAGHEFI R M. A novel multi- layer neural network model for TOA-based localization in wireless sensor networks [ C ]. Neural Networks (IJC- NN), The 2011 International Joint Conference on. IEEE, 2011: 3079-3084.
  • 8KAUNE R, HORST J, KOCH W. Accuracy analysis for TDOA localization in sensor networks [ C ]. Information Fusion (FUSION), 2011 Proceedings of the 14th Inter- national Conference on. IEEE, 2011 : 1-8.
  • 9JIANG J R, LIN C M, LIN F Y, et al. ALRD: AoA lo- calization with RSSI differences of directional antennas for wireless sensor networks [ C ]. Information Society ( i-So- ciety), 2012 International Conference on. IEEE, 2012: 304-309.
  • 10NGUYEN X, JORDAN M I, SINOPOLI B. A kernel- based learning approach to ad hoc sensor network locali- zation [ J ]. ACM Transactions on Sensor Networks (TOSN), 2005, 1(1): 134-152.

引证文献3

二级引证文献38

电子科技
2013年 第2期

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