|本期目录/Table of Contents|

[1]周雷,喻言**,李志瑞,等. 海洋平台振动采集的超低频无线传感器设计*[J].南京大学学报(自然科学),2011,47(4):414-419.
 Zhou Lei,Yu Yan,Li Zhi-Rui,et al. Design of low-frequency wireless sensor for vibration acquisition of onshore platform[J].Journal of Nanjing University(Natural Sciences),2011,47(4):414-419.
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 海洋平台振动采集的超低频无线传感器设计*()
     

《南京大学学报(自然科学)》[ISSN:0469-5097/CN:32-1169/N]

卷:
47
期数:
2011年第4期
页码:
414-419
栏目:
出版日期:
2011-07-30

文章信息/Info

Title:
 Design of low-frequency wireless sensor for vibration acquisition of onshore platform
作者:
 周雷1喻言2**李志瑞2王洁3孙贞1欧进萍4
 (1.海洋石油工程股份有限公司,天津,300451;
2.大连理工大学电子科学与技术学院,辽宁大连,116024
3.大连理工大学电子信息与电气工程学部,辽宁大连,116024
4.大连理工大学上术工程学院,辽宁大连,116024
Author(s):
 Zhou Lei1Yu Yan2Li Zhi-Rui2Wanh Jie3Sun Zhen1Ou Jin Ping4
 (1.Offshore(川Engineering Company Limited,丁ianjin, 300451,China;
 2. School of Electronic Science and Technology, Dalian University of Tcchnology, Liaonin Dalian, 116024,China;
3. Faculty of Electronic Information and Electrical Engineering, Dalian University of Technology, Liaonin Dalian, 116024,China
4. School of Civil Enginccring. Dalian Univcrsitv of Technology. Liaonin Dalian. 116024,China)
关键词:
 海洋平台超低频无线传感器网络加速度数据挖掘
Keywords:
 offshore platform low frequency wireless sensor network acceleration data minim
分类号:
-
DOI:
-
文献标志码:
-
摘要:
 海洋平台结构体积庞大、构造复杂、造价昂贵,所处的服役环境恶劣,对海洋平台振动响应进行快速检测、分析、诊断和维护,己成为平台安全运营的必要措施和手段.木文结合无线传感器网络和数
据挖掘技术,进行了平台快速检测超低频无线传感器的设计:首先,分析了平台振动测试超低频、快速性的要求;其次,采用模块化方法,完成了超低频传感器机理分析、微处理系统、无线系统、电源管理系统的
设计,并集成为无线加速度传感器节点;最后,分析了节点软件功能,采用数据挖掘分类和预测方法来加以实现.所设计无线加速度传感器节点,具有超低频、高分辨率的特性,能够满足海洋平台结构振动响应
数据的精确和快速测量与诊断需求,具有很好的应用前景.
Abstract:
 The offshore platform structure is huge, complicated,and expensive. Working in the bad service cnvmonmcnt,offshore platforms’rapid detection, analysis, diagnostics and maintenance,have become the necessary
measures and means for their safe operation.This paper, on the basis of wireless sensor network and data minim technology, designs the ultra low frequency wireless sensor for the sake of the demand of rapid detection of offshore
platform. Firstly, the fast and ultra low frequency request of platform vibration test has been analyzed;Secondly, the following work processing system, arc finished:the analysis of ultra low frequency sensor mechanism, the design of micrc
the design of wireless system, the design of power source management system. And a wircless acceleration sensor node is integrated. Finally, the node software function is data mining.The designed wireless acceleration sensor node with ultra low
analyzed and realized specifically using frequency and hig卜resolution features can satisfy the demand of precise and rapid survey of the offshore platform structure vibration response,which has a very good application prospect.


参考文献/References:

[1]Li X, Feng X, Du C, et al. System reliability analysis on two kinds of jacket platforms. China Offshore Platform,2007,22(1):29一32.(李听,冯新,杜超等.两种导管架海洋平台的系统可靠度分析.中国海洋平台,2007,22(1); 29一32).
[2]Yu Y,Ou J P. Wireless sensing experiments for structural vibration monitoring of offshore platform. Frontiers of Electrical and Electronic Engineering in China, 2008,3(3):333一337.
[3]Li X, Jin Q,Zhou J. State of art review of re assessment of existing offshore jacket platform for life extension. Journal of Disaster Preven- tion and Mitigation Engineering, 2007,27(3): 368~376.(李听,金娇,周晶.在役导管
架平台的评估策略研究现状.防灾减灾工程学报,2007,27(3):368一376).
[4]Lan F. A,Wcilian S, Yogcsh S, et al. A sur vey on sensor networks.IEEE Communications Magazine, 2002,40(8):102~114
[5]Lynch J P. Decentralization of wireless monito- ring and control technologies for smart civil Structures. Ph. D. Dissertation, Stanford Uni- vcrsity, 2002.
[6]Ou .J P,Li H W. Wireless sensor information fusion for structural health monitoring. Pro ceedings of SPIE, 2003,5099:356一362.
[7]Spencer B F. A study On building risk momtoring using wireless sensor network MICA mote. First lntcrnational Confercnce on Structural Hcalth Monitoring and lntclligcnt lnfrastruc ture,Japan. 2003,353一363.
[8]Yu Y,Ou J P,Zhang J,et al. Development of wireless MEMS inclination sensor system swing monitoring of large scale hook structures. IEEE Transactions on industrial Electronics  2009,56(4):1072一1078.
[9]Ji L,Ding H P,Shcn Q H. A new method for bridgc structural health monitoring based on wireless sensor networks. Journal of Nanjing University( Natural Sciences),2011,17(1): 19~24.
(吉林,J华平,沈庆宏.基于无线传感器网络的桥梁结构健康监测.南京大学学报(自然科学),2011, 47(1):19~24).
[10]Yu Y,Ou J P. Design, calibration and applica tion of wireless sensors for structural global and local monitoring of civil inlrastructurcs. Smart Structures and Systems, 2010,6(5):641一659.
[11]Yu Y,Ou .I P. Wireless collection and data fu sion method of strain signal in civil engineering structures. Sensor Rcvicw,2009,29(1):63一69.
[12]Yu Y,Ou J P. Design and Validation of wire Icss acceleration sensor network for structural health monitoring. High Technique Letters,2006,2(4):358一362.










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备注/Memo:
 国家863项日(2008AA092701)
更新日期/Last Update: 2015-04-14