计算机科学

计算机科学 ›› 2020, Vol. 47 ›› Issue (5): 242-249.doi: 10.11896/jsjkx.190400025

所属专题: 网络通信

• 计算机网络 • 上一篇    下一篇

广域复杂流体系统中基于无线传感网的数据保存关键技术研究进展

张婕, 梁俊斌, 蒋婵   

  1. 广西大学计算机与电子信息学院 南宁530004
    广西多媒体通信与网络技术重点实验室 南宁530004
  • 收稿日期:2019-04-04 出版日期:2020-05-15 发布日期:2020-05-19
  • 通讯作者: 梁俊斌(liangjb2002@163.com)
  • 作者简介:jiezhang_j@163.com
  • 基金资助:
    国家自然科学基金项目(61562005,61762010);广西自然科学基金项目(2018GXNSFBA281169);广西高等学校千名中青年骨干教师培育计划项目(桂教人(2017)49)

Research Progress on Key Technologies of Data Storage Based on Wireless Sensor Networks inWide-Area Complex Fluid Systems

ZHANG Jie, LIANG Jun-bin, JIANG Chan   

  1. School of Computer Electronics and Information,Guangxi University,530004,China
    Guangxi Key Laboratory of Multimedia Communications and Network Technology,530004,China
  • Received:2019-04-04 Online:2020-05-15 Published:2020-05-19
  • About author:ZHANG Jie,born in 1995,postgradua-te.Her main research interests include wireless sensor networks,network deployment and optimization.
    LIANG Jun-bin,born in 1979,Ph.D,professor,Ph.D supervisor.His main research interests include wireless sensor networks,network deployment and optimization.
  • Supported by:
    This work was supported by the National Natural Science Foundation of China (61562005,61762010),Natural Science Foundation of Guangxi Province,China (2018GXNSFBA281169),and Thousands of Young and Middle-aged Backbone Teachers Training Program for Guangxi Higher Education

PDF (PC)

668

摘要: 流体系统包括城市供水管网、天然气供给管网等,是具有经济和社会价值的重要基础设施。它们具有分布地域广、结构复杂、规模庞大、难以检测等特点,在出现泄漏、污染等异常时难以快速发现和准确定位。随着传感器技术、通信技术、微机电技术等的发展,利用无线传感网来对系统进行监测成为研究热点。由于在流体系统中通信困难,数据被监测到后很难实时传送给用户,只能暂时保存在传感器节点(简称节点)上,等待适当的时刻再进行上传。但是,节点具有体积微小、易损坏、存储容量小、通信能力弱、能量有限等特点,如何可靠地存储大量的数据是一个难点问题。目前,已有部分工作对这个问题进行了研究。为了解该领域研究的进展,文中对相关工作进行了细致地分析、对比、归纳和总结,介绍了它们的优缺点,并对未来的研究方向进行了探讨。

关键词: 节点部署, 可靠传输, 流体系统, 数据保存, 无线传感网络

Abstract: The fluid system,including the urban water supply pipe networks and the natural gas supply pipe networks,is an infrastructure with important economic and social values.They have the characteristics of wide geographical distribution,complex structure,large scale and difficult to detect.When leakage,pallution and other abnormalities occur,it's difficult to quickly find and accurately locate.With the development of sensor technology,communication technology,micro-electromechanical technology,using wireless sensor networks to monitor the system has become a research hotspot.Due to difficult communication in the fluid system,the data is difficult to transmit to the user in real time after being monitored,and can only be temporarily stored on the sensor node (referred to as a node),waiting for a suitable moment to upload.However,nodes have the characteristics of small size and easy damage,small storage capacity,weak communication capability,and limited energy.How to reliably store large amounts of data is a difficult problem.At present,some work has been done on this issue.In order to understand the progress of research in this field,this paper have carried out detailed analysis,comparison,summarization and summary of related work,and learned their advantages and disadvantages,and discussed the future research direction.

Key words: Data preservation, Deployment of nodes, Fluid system, Reliable transmission, Wireless sensor network

中图分类号: 

  • TP393
[1]DATTA S,SARKAR S.A review on different pipeline fault detection methods[J].Journal of Loss Prevention in the Process Industries,2016,41:97-106.
[2]PUUST R,KAPELAN Z,SAVIC D A,et al.A review of me-thods for leakage management in pipe networks[J].Urban Water Journal,2010,7(1):25-45.
[3]KULKARNI P,FARNHAM T.Smart city wireless connectivityconsiderations and cost analysis:Lessons learnt from smart water case studies[J].IEEE Access,2016,4:660-672.
[4]WANG Y,RAJIB S M S M,COLLINS C,et al.Low-Cost Turbidity Sensor for Low-Power Wireless Monitoring of Fresh-Water Courses[J].IEEE Sensors Journal,2018,18(11):4689-4696.
[5]LIU Z,KLEINER Y.Computational Intelligence for Urban In-frastructure Condition Assessment:Water Transmission and Distribution Systems[J].IEEE Sensors Journal,2014,14(12):4122-4133.
[6]ADEDEJI K B,HAMAM Y,ABE B T,et al.Towards Ac-hieving a Reliable Leakage Detection and Localization Algorithm for Application in Water Piping Networks:An Overview[J].IEEE Access,2017,5:20272-20285.
[7]CHAN T K,CHIN C S,ZHONG X.Review of Current Technologies and Proposed Intelligent Methodologies for Water Distributed Network Leakage Detection[J].IEEE Access,2018,6:78846-78867.
[8]LIU S,LIU W,CHEN J,et al.Optimal locations of monitoring stations in water distribution systems under multiple demand patterns:a flaw of demand coverage method and modification[J].Frontiers of Environmental Science & Engineering,2012,6(2):204-212.
[9]LI X,YU W,LIN X,et al.On optimizing autonomous pipeline inspection[J].IEEE Transactions on Robotics,2012,28(1):223-233.
[10]ROSSMAN L A.EPANET:U.S.Environmental Protection Agency:EPA-600/R-94/057[P].https://www.epa.gov/water-research/epanet.
[11]DU R,FISCHIONE C,XIAO M.Flowing with the water:Onoptimal monitoring of water distribution networks by mobile sensors[C]//IEEE INFOCOM 2016-The 35th Annual IEEE International Conference on Computer Communications.IEEE,2016:1-9.
[12]SURESH M A,SMITH L,RASEKH A,et al.Mobile sensornetworks for leak and backflow detection in water distribution systems[C]//2014 IEEE 28th International Conference on Advanced Information Networking and Applications.IEEE,2014:673-680.
[13]SURESH M A,STOLERU R,ZECHMAN E M,et al.On event detection and localization in acyclic flow networks[J].IEEE Transactions on Systems,Man,and Cybernetics:Systems,2013,43(3):708-723.
[14]MOHAMED N,AL-MUHAIRI L,AL-JAROODI J,et al.Afault-tolerant acoustic sensor network for monitoring underwater pipelines[C]//2014 International Conference on High Performance Computing & Simulation (HPCS).IEEE,2014:877-884.
[15]KIZIROGLOU M E,BOYLE D E,WRIGHT S W,et al.Acoustic energy transmission in cast iron pipelines[C]//Journal of Physics:Conference Series.IOP Publishing,2015,660(1):012095.
[16]ABBAS W,PERELMAN L S,AMIN S,et al.Resilient sensor placement for fault localization in water distribution networks[C]//2017 ACM/IEEE 8th International Conference on Cyber-Physical Systems (ICCPS).IEEE,2017:165-174.
[17]TRINCHERO D,CISONI L,STEFANELLI R,et al.Mobilewireless sensor networks applied to the survey of water infrastructures[C]//SENSORS,2010 IEEE.IEEE,2010:690-693.
[18]PERELMAN L,OSTFELD A.Optimal mobile self-poweredsensor operation for water distribution systems water quality enhancements[C]//World Environmental and Water Resources Congress 2012:Crossing Boundaries.2012:3207-3216.
[19]SCHANTZ C,DONNAL J,SENNETT B,et al.Water Nonintrusive Load Monitoring[J].IEEE Sensors Journal,2015,15(4):2177-2185.
[20]POSTOLACHE O,PEREIRA J D,GIRÃO P S.Wireless sensor network-based solution for environmental monitoring:Water quality assessment case study[J].IET Science,Measurement & Technology,2014,8(6):610-616.
[21]LIN Z,WANG W,YIN H,et al.Design of Monitoring System for Rural Drinking Water Source Based on WSN[C]//2017 International Conference on Computer Network,Electronic and Automation (ICCNEA).IEEE,2017:289-293.
[22]FAZEL F,FAZEL M,STOJANOVIC M.Random Access Compressed Sensing for Energy-Efficient Underwater Sensor Networks[J].IEEE Journal on Selected Areas in Communications,2011,29(8):1660-1670.
[23]DU R,GKATZIKIS L,FISCHIONE C,et al.Energy efficient sensor activation for water distribution networks based on compressive sensing[J].IEEE Journal on Selected Areas in Communications,2015,33(12):2997-3010.
[24]DU R,GKATZIKISZ L,FISCHIONE C,et al.Energy efficient monitoring of water distribution networks via compressive sen-sing[C]//2015 IEEE International Conference on Communications (ICC).IEEE,2015:6681-6686.
[25]JIN Y,EYDGAHI A.Monitoring of distributed pipeline systems by wireless sensor networks[C]//Proceedings of The 2008 IAJC-IJME International Conference.2008:213-222.
[26]ZENG D,GU L,LIAN L,et al.On cost-efficient sensor placement for contaminant detection in water distribution systems[J].IEEE Transactions on Industrial Informatics,2016,12(6):2177-2185.
[27]LI L Y,JAAFAR H,RAMLI N H.Preliminary Study of Water Quality Monitoring Based on WSN Technology[C]//2018 International Conference on Computational Approach in Smart Systems Design and Applications (ICASSDA).IEEE,2018:1-7.
[28]DI F M,DAS S K,ANASTASI G.Data collection in wireless sensor networks with mobile elements:A survey[J].ACM Transactions on Sensor Networks (TOSN),2011,8(1):7.
[29]PERELMAN L,SALIM W,WU R,et al.Enhancing water distribution system security through water quality mobile sensoroperation[C]//World Environmental & Water Resources Congress.2013:663-674.
[30]PERELMAN L,OSTFELD A.Optimal mobile self-poweredsensor operation for water distribution systems water quality enhancements[C]//Proc.of World Environmental and Water Resources Congress.2012:3207-3216.
[31]SURESH M A,SMITH L,RASEKH A,et al.Mobile sensornetworks for leak and backflow detection in water distribution systems[C]//2014 IEEE 28th International Conference on Advanced Information Networking and Applications.IEEE,2014:673-680.
[32]MAHBOUBI H,MASOUDIMANSOUR W,AGHDAM A G,et al.An Energy-Efficient Target-Tracking Strategy for Mobile Sensor Networks[J].IEEE Transactions on Cybernetics,2016,47(2):511.
[33]ALMAZYAD A S,SEDDIQ Y M,ALOTAIBI A M,et al.A Proposed Scalable Design and Simulation of Wireless Sensor Network-Based Long-Distance Water Pipeline Leakage Monitoring System[J].Sensors,2014,14(2):3557-3577.
[34]LAI T T,CHEN W J,LI K H,et al.TriopusNet:Automating wireless sensor network deployment and replacement in pipeline monitoring[C]//2012 ACM/IEEE 11th International Confe-rence on Information Processing in Sensor Networks (IPSN).IEEE,2012:61-71.
[35]LAI T T,CHEN Y T,HUANG P,et al.PipeProbe:a mobile sensor droplet for mapping hidden pipeline[C]//Proceedings of the 8th ACM Conference on Embedded Networked Sensor Systems.ACM,2010:113-126.
[36]HAN G,SHEN S,SONG H,et al.A Stratification-Based Data Collection Scheme in Underwater Acoustic Sensor Networks[J].IEEE Transactions on Vehicular Technology,2018,67(11):10671-10682.
[37]BASAGNI S,BÖLÖNI L,GJANCI P,et al.Maximizing the va-lue of sensed information in underwater wireless sensor networks via an autonomous underwater vehicle[C]//IEEE INFOCOM 2014-IEEE Conference on Computer Communications.IEEE,2014:988-996.
[38]GONG W,SURESH M A,SMITH L,et al.Mobile sensor networks for optimal leak and backflow detection and localization in municipal water networks[J].Environmental Modelling & Software,2016,80(C):306-321.
[39]SANKARY N,OSTFELD A.Inline mobile sensors for contaminant early warning enhancement in water distribution systems[J].Journal of Water Resources Planning and Management,2016,143(2):04016073.
[40]WU D,CHATZIGEORGIOU D,YOUCEF-TOUMI K,et al.Channel-Aware Relay Node Placement in Wireless Sensor Networks for Pipeline Inspection[J].IEEE Transactions on Wireless Communications,2014,13(7):3510-3523.
[41]WU D,CHATZIGEORGIOU D,YOUCEF-TOUMI K,et al.Node Localization in Robotic Sensor Networks for Pipeline Inspection[J].IEEE Transactions on Industrial Informatics,2017,12(2):809-819.
[42]SURESH M A,ZHANG W,GONG W,et al.Toward Optimal Monitoring of Flow-Based Systems Using Mobile Wireless Sensor Networks[J].Acm Transactions on Sensor Networks,2015,11(3):1-37.
[43]SUN Z,WANG P,VURAN M C,et al.MISE-PIPE:Magneticinduction-based wireless sensor networks for underground pipeline monitoring[J].Ad Hoc Networks,2011,9(3):218-227.
[44]CHATZIGEORGIOU D,YOUCEF-TOUMI K,BEN-MAN-SOUR R.MIT Leak Detector:Modeling and Analysis Toward Leak-Observability[J].IEEE/ASME Transactions on Mechatronics,2015,20(5):1-12.
[45]JHA M K,SAH R K,RASHMITHA M S,et al.Smart Water Monitoring System for Real-Time Water Quality and Usage Monitoring[C]//2018 International Conference on Inventive Research in Computing Applications (ICIRCA).IEEE,2018:617-621.
[46]STOIANOV I,NACHMAN L,MADDEN S,et al.PIPENET:A wireless sensor network for pipeline monitoring[C]//Procee-dings of the 6th international conference on Information proces-sing in sensor networks.ACM,2007:264-273.
[47]KIM Y,SCHMID T,CHARBIWALA Z M,et al.NAWMS:nonintrusive autonomous water monitoring system[C]//Proceedings of the 6th ACM conference on Embedded network sensor systems.ACM,2008:309-322.
[48]WHITTLE A J,GIROD L,PREIS A,et al.WATERWISE@ SG:A testbed for continuous monitoring of the water distribution system in singapore[M]//Water Distribution Systems Analysis 2010.2010:1362-1378.
[49]WHITTLE A J,ALLEN M,PREIS A,et al.Sensor networks for monitoring and control of water distribution systems[C]//6th International Conference on Structual Health Monitoring of Intelligent Infrastructure (SHMII 2013).Hong Kong,2013:9-11.
[50]ZAN T T T,LIM H B,Wong K J,et al.Event detection and localization in urban water distribution network[J].IEEE Sensors Journal,2014,14(12):4134-4142.
[51]KIM J H,SHARMA G,BOUDRIGA N,et al.SPAMMS:A sensor-based pipeline autonomous monitoring and maintenance system[C]//2010 Second International Conference on Communication Systems and Networks (COMSNETS 2010).IEEE,2010:1-10.
[1] 倪晓军, 佘戌豪.
面向无线传感网络应用的改进LZW算法
Improvement of LZW Algorithms for Wireless Sensor Networks
计算机科学, 2020, 47(5): 260-264. https://doi.org/10.11896/jsjkx.190400108
[2] 倪晓军, 高雁, 李凌锋.
基于RSSI的混合滤波算法
Hybrid Filtering Algorithm Based on RSSI
计算机科学, 2019, 46(8): 133-137. https://doi.org/10.11896/j.issn.1002-137X.2019.08.022
[3] 刘梦君, 沙涛, 李丹, 刘树波.
窄带物联网下的安全门锁密钥可靠更新方案
Reliable Security Lock Key Updating Scheme over Narrow Band Internet of Things
计算机科学, 2019, 46(4): 137-143. https://doi.org/10.11896/j.issn.1002-137X.2019.04.022
[4] 张婷, 张德干, 崔玉亚, 陈露, 葛辉.
一种基于冗余策略的多路径可靠传输新方法
New Method of Multi-path Reliable Transmission Based on Redundancy Strategy
计算机科学, 2019, 46(11A): 363-368.
[5] 徐新黎,陈琛,皇甫晓洁,崔永婷.
能量受限的单移动设备无线充电调度算法
Wireless Charging Scheduling Algorithm of Single Mobile Vehicle with Limited Energy
计算机科学, 2018, 45(3): 108-114. https://doi.org/10.11896/j.issn.1002-137X.2018.03.018
[6] 范兴刚, 刘涛, 胡凤丹, 蒿翔.
一种延长目标覆盖网络寿命的群智能算法
Swarm Intelligence Algorithm for Prolonging Target Coverage Network Lifetime
计算机科学, 2018, 45(12): 86-91. https://doi.org/10.11896/j.issn.1002-137X.2018.12.013
[7] 胡长俊, 袁树杰.
煤矿井下WSN中基于自适应粒子群聚类算法的多sink节点部署
Multi-sink Deployment in Wireless Sensor Networks for Underground Coal MineBased onAdaptive Particle Swarm Optimization Clustering Algorithm
计算机科学, 2018, 45(11): 103-107. https://doi.org/10.11896/j.issn.1002-137X.2018.11.015
[8] 张晓潘,袁凌云.
具有时滞-扩散作用的无线传感网络病毒传播模型的振荡动力学研究
Oscillatory Behaviors of Malware Propagation Model in Wireless Sensor Networks with Time Delays and Reaction-diffusion Terms
计算机科学, 2017, 44(Z6): 390-394. https://doi.org/10.11896/j.issn.1002-137X.2017.6A.088
[9] 林政宽,赵源,樊建席,程宝雷.
基于顶点度数的完全独立生成树研究
Research on Completely Independent Spanning Trees Based on Degree of Vertices
计算机科学, 2017, 44(6): 94-96. https://doi.org/10.11896/j.issn.1002-137X.2017.06.016
[10] 田贤忠,肖赟.
一种能量捕获无线传感网络机会路由算法
Algorithm of Opportunistic Routing Based on Energy Harvesting Wireless Sensor Networks
计算机科学, 2016, 43(Z6): 288-290. https://doi.org/10.11896/j.issn.1002-137X.2016.6A.069
[11] 袁利永,朱艺华,邱树伟.
无线传感mesh网络的分段地址分配策略及其路由
Segmented Address Assignment Policy and Routing for Wireless Sensor Mesh Networks
计算机科学, 2016, 43(6): 116-121. https://doi.org/10.11896/j.issn.1002-137X.2016.06.024
[12] 胡显俊,陈建新,周生强,李一帆.
支持异构数据通信的IEEE 802.15.4实时带宽分配算法
IEEE 802.15.4 Real-time Bandwidth Allocation Algorithm Supporting Heterogeneous Data Communication
计算机科学, 2016, 43(6): 106-111. https://doi.org/10.11896/j.issn.1002-137X.2016.06.022
[13] 陈甜甜,江冰,薛晓清,沙婷婷.
基于内河无线传感网络的分簇路由算法
Clustering Routing Algorithm for Wireless Sensor Network along River
计算机科学, 2015, 42(Z11): 227-230.
[14] 胡显俊,陈建新,周生强,程义.
IEEE 802.15.4实时通信调度算法研究
Study on IEEE 802.15.4 Scheduling Algorithms for Real-time Communication
计算机科学, 2015, 42(Z11): 222-226.
[15] 陈秋丽,何明,王琰,陈希亮,王立辉.
面向海洋监测的水声传感器网络节点定位算法
Localization Algorithm of Underwater Acoustic Sensor Network Oriented to Marine Monitoring
计算机科学, 2015, 42(2): 29-32. https://doi.org/10.11896/j.issn.1002-137X.2015.02.006
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
No Suggested Reading articles found!
渝ICP备16013121号-4
地址:重庆市渝北区洪湖西路18号    邮编:401121  
电话:023-63500828(编辑部) 023-67039612(会议/专题) 023-67039623(财务/发票)
E-mail:jsjkx12@163.com
本系统由北京玛格泰克科技发展有限公司设计开发