无线传感器网络局部协同定位算法

doi:10.11772/j.issn.1001-9081.2014.09.2460

计算机应用 ›› 2014, Vol. 34 ›› Issue (9): 2460-2463.DOI: 10.11772/j.issn.1001-9081.2014.09.2460

无线传感器网络局部协同定位算法

任秀丽,安乐

辽宁大学信息学院，沈阳 110036

收稿日期:2014-03-17 修回日期:2014-04-17 发布日期:2014-09-30 出版日期:2014-09-01
通讯作者: 安乐
作者简介:
任秀丽(1965-),女,吉林四平人,教授,博士,主要研究方向:无线网络与通信;
安乐(1986-),男, 河南郑州人,硕士研究生,主要研究方向:无线传感器网络、物联网。
基金资助:
辽宁省自然科学基金资助项目

Local cooperative localization algorithm for wireless sensor networks

REN Xiuli,AN Le

College of Information, Liaoning University, Shenyang Liaoning 110036, China

Received:2014-03-17 Revised:2014-04-17 Online:2014-09-30 Published:2014-09-01
Contact: AN Le

摘要/Abstract

摘要：

针对无线传感器网络中距离定位算法精度和覆盖率低的问题，提出了局部协同定位算法(LCLA)。该算法通过对节点路径损耗指数的局部计算，将通信中受到环境或者障碍物影响的锚节点判定为无效锚节点；同时引入协同定位思想，将满足误差要求的已定位节点升级为锚节点，并参与其他未知节点的定位，以提高定位的覆盖率。节点定位时，若收到多个锚节点信号，优先选取初始的有效锚节点对其进行定位；当有效锚节点个数不足以定位时，再选取升级后的锚节点，以减少累积误差，提高定位精度。仿真结果表明，局部协同定位算法在定位覆盖率和精度方面优于改进的接收信号强度指示(RSSI)定位算法、多维尺度分析(MDS-MAP)算法和协作定位算法。

Abstract:

In order to overcome the low accuracy and coverage rate of localization algorithm based on distance in wireless sensor networks, a Local Cooperative Localization Algorithm (LCLA) was proposed. The algorithm judged anchor nodes by calculating their local path loss indexes and determined those influenced by communication environment or obstacles to be invalid. At the same time, the idea of cooperative localization was introduced and the nodes that met certain requirements of localization error would be upgraded to anchor nodes to take part in localization of other nodes and improved coverage rate of localization. When nodes received multiple signals from anchor nodes, they first selected the initial valid anchor nodes to calculate their positions in priority. If the number of the initial valid anchor nodes was not sufficient, nodes would then select from the upgraded ones to reduce the cumulative error and improve localization accuracy. The simulation results indicate that LCLA performs better in localization accuracy and coverage rate compared with the algorithm of improved Received Signal Strength Indicator (RSSI) localization, MDS-MAP (MultiDimensional Scaling MAP) and cooperating localization.

中图分类号:

TP393

任秀丽安乐. 无线传感器网络局部协同定位算法[J]. 计算机应用, 2014, 34(9): 2460-2463.

REN Xiuli AN Le. Local cooperative localization algorithm for wireless sensor networks[J]. Journal of Computer Applications, 2014, 34(9): 2460-2463.

参考文献

［1］WAN Z, ZHANG X, XIONG X, et al.The application research of wireless sensor network in the prison monitoring system ［C］ // IITSI 2010: Proceedings of the 2010 Third International Symposium on Intelligent Information Technology and Security Informatics. Piscataway: IEEE, 2010: 58-62.

［2］LI D, WONG K D, HU Y H, et al.Detection, classification, and tracking of targets ［J］. IEEE Signal Processing Magazine, 2002, 19(2): 17-29.

［3］SUN H, SU N, KONG C, et al.Improved method of self-adaptive localization ［J］. Computer Systems and Applications, 2013, 22(4): 190-194. (孙红,苏南,孔超宇,等.一种改进的自适应环境定位方法［J］.计算机系统应用,2013,22(4):190-194.)

［4］LI J, LI Z, WANG Q, et al.An ellipse-centroid localization algorithm in wireless sensor networks ［C］// WiCom'09: Proceedings of the 5th International Conference on Wireless Communications, Networking and Mobile Computing. Piscataway: IEEE, 2009: 1-4.

［5］NICULESCU D, NATH B. Ad Hoc Positioning System (APS) ［C］// GLOBECOM'01: Proceedings of the 2001 IEEE Global Telecommunications Conference. Piscataway: IEEE, 2001, 5: 2926-2931.

［6］NAGPAL R, SHROBE H, BACHRACH J. Organizing a global coordinate system from local information on an Ad Hoc sensor network ［C］// IPSN'03: Proceedings of the 2nd International Conference on Information Processing in Sensor Networks, LNCS 2634. Berlin: Springer-Verlag, 2003: 333-348.

［7］HAN B,XU C,YUAN H, et al.Improved APIT positioning algorithm in wireless sensor network ［J］．Computer Engineering and Applications, 2008, 44(4): 122-124. (韩彪,徐昌彪,袁海,等.无线传感器网络中一种改进的 APIT 定位算法［J］.计算机工程与应用,2008,44(4):122-124.)

［8］ZHENG J, WU C, CHU H, et al.Localization algorithm based on RSSI and distance geometry constrain for wireless sensor network ［C］// ICECE 2010: Proceedings of the 2010 International Conference on Electrical and Control Engineering. Piscataway: IEEE, 2010: 2836-2839.

［9］KIM S, JANG S-H, CHONG J-W. Hybrid RSS/TOA wireless positioning with a mobile anchor in wireless sensor networks ［C］// ICUIMC '12: Proceedings of the 6th International Conference on Ubiquitous Information Management and Communication. New York: ACM, 2012: Article No. 116.

［10］SHIN H-H, CHO C J, KO H, et al.Robust localization of moving object via fusion of TDOA and detection range measurements of acoustic sensors ［C］// ICSPCC 2013: Proceedings of the 2013 IEEE International Conference on Signal Processing, Communication and Computing. Piscataway: IEEE, 2013: 1-5.

［11］AL-JAZZAR S, GHOGHO M, MCLERNON D. A joint TOA/AOA constrained minimization method for locating wireless devices in non-line-of-sight environment ［J］. IEEE Transactions on Vehicular Technology, 2009, 58(1): 468-472.

［12］WAN G, ZHONG J, YANG C. Improved algorithm of ranging and locating based on RSSI ［J］. Application Research of Computers, 2012, 29(11): 4156-4158. (万国峰,钟俊,杨成慧.改进的RSSI测距和定位算法［J］.计算机应用研究,2012,29(11):4156-4158.)

［13］XU K, LIU Y, XU C, et al.A cluster-based and range-free multidimensional scaling-MAP localization scheme in WSN ［C］// CENet2013: Proceedings of the 2013 International Conference on Computer Engineering and Network, Lecture Notes in Electrical Engineering 277. Berlin: Springer Verlag, 2014: 1253-1262.

［14］SHA C, WANG R, SUN L, et al.A cooperating localization method based on beacon transfer in wireless sensor networks ［J］. Acta Electronica Sinica, 2010, 38(11): 2625-2629. (沙超,王汝传,孙力娟,等.无线传感器网络中一种信标节点可迁移的协作定位方法［J］. 电子学报, 2010,38(11):2625-2629.)

［15］LAMEHAMEDI H, SHENTU Z, SZYMANSKI B, et al.Simulation of dynamic data replication strategies in data grids ［C］// IPDPS 2003: Proceedings of the 2003 International Parallel and Distributed Processing Symposium. Piscataway: IEEE, 2003: 1-10.

［16］GENTILE C, ALSINDI N, ALSINDI R, et al.Cooperative localization in wireless sensor networks: centralized algorithms ［M］// Geolocation Techniques. Berlin: Springer Verlag, 2013: 161-185.

[1]	宗学军韩冰王国刚宁博伟何戡连莲. TDRFuzzer:基于自适应动态区间策略的工业控制协议模糊测试方法[J]. 《计算机应用》唯一官方网站, 0, (): 0-0.
[2]	张明, 付乐, 王海峰. 面向边缘计算的并发数据流接转控制模型[J]. 《计算机应用》唯一官方网站, 2024, 44(12): 3876-3883.
[3]	郑智强王锐棋范子静何发镁姚叶鹏汪秋云姜政伟. DNS隧道检测技术研究综述[J]. 《计算机应用》唯一官方网站, 0, (): 0-0.
[4]	张立孝马垚杨玉丽于丹陈永乐. 基于命名实体识别的大规模物联网二进制组件识别[J]. 《计算机应用》唯一官方网站, 0, (): 0-0.
[5]	刘羿希, 何俊, 吴波, 刘丙童, 李子玉. DevSecOps中软件安全性测试技术综述[J]. 《计算机应用》唯一官方网站, 2024, 44(11): 3470-3478.
[6]	庞川林, 唐睿, 张睿智, 刘川, 刘佳, 岳士博. D2D通信系统中基于图卷积网络的分布式功率控制算法[J]. 《计算机应用》唯一官方网站, 2024, 44(9): 2855-2862.
[7]	方介泼, 陶重犇. 应对零日攻击的混合车联网入侵检测系统[J]. 《计算机应用》唯一官方网站, 2024, 44(9): 2763-2769.
[8]	张一鸣曹腾飞. 基于本地漂移和多样性算力的联邦学习优化算法[J]. 《计算机应用》唯一官方网站, 0, (): 0-0.
[9]	徐航, 杨智, 陈性元, 韩冰, 杜学绘. 基于自适应敏感区域变异的覆盖引导模糊测试[J]. 《计算机应用》唯一官方网站, 2024, 44(8): 2528-2535.
[10]	陈虹, 齐兵, 金海波, 武聪, 张立昂. 融合1D-CNN与BiGRU的类不平衡流量异常检测[J]. 《计算机应用》唯一官方网站, 2024, 44(8): 2493-2499.
[11]	耿海军董赟胡治国池浩田杨静尹霞. 基于Attention-1DCNN-CE的加密流量分类方法[J]. 《计算机应用》唯一官方网站, 0, (): 0-0.
[12]	邓淼磊阚雨培孙川川徐海航樊少珺周鑫. 基于深度学习的网络入侵检测系统综述[J]. 《计算机应用》唯一官方网站, 0, (): 0-0.
[13]	陈瑞龙胡涛卜佑军伊鹏胡先君乔伟. 面向加密恶意流量检测模型的堆叠集成对抗防御方法[J]. 《计算机应用》唯一官方网站, 0, (): 0-0.
[14]	吴中岱, 韩德志, 蒋海豹, 冯程, 韩冰, 陈重庆. 海洋船舶通信网络安全综述[J]. 《计算机应用》唯一官方网站, 2024, 44(7): 2123-2136.
[15]	姚梓豪, 栗远明, 马自强, 李扬, 魏良根. 基于机器学习的多目标缓存侧信道攻击检测模型[J]. 《计算机应用》唯一官方网站, 2024, 44(6): 1862-1871.

无线传感器网络局部协同定位算法

Local cooperative localization algorithm for wireless sensor networks

PDF

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 15

编辑推荐

Metrics