Browse > Article
http://dx.doi.org/10.9708/jksci.2014.19.7.095

An Efficient Dynamic Workload Balancing Strategy Design of the Wireless Reading/Management System for the Corrosion Monitoring of Underground Structures  

Kwan, Yong-Kwang (Dept. of Computer Information, ShinAnsan University)
Abstract
There are a variety of structures below the surface are buried. In particular, if It is experiencing problems in the city gas pipe or electrical wire, our safety would be greatly jeopardized. Therefore, the underground structures which encounter a variety of pollutants are highly sensitive to corrosion. So if you are not identify the degree of corrosion, it can lead to large accidents such as gas leakage. Until now, person visit directly every underground structure to measure and record manually, but This approach requires a lot of human and material resources and the continuity of management. Therefore, the research to find out the risk factors quickly via the continuous management is needed, and in this paper the structures management systems in the vehicle being moved by combining ICT underground structures for state information wirelessly collects and analyzes system is proposed.
Keywords
Remote Data Logging; Structure Monitoring System; Mobile Monitoring;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
연도 인용수 순위
1 J.H. Bae, D.K. Kim, K.J. Kim, "The Development of GIS Interconnected Corrosion Prediction System for Underground Buried Gas Pipelines" KIGAS Vol 4 No.3, Sep. 2000.   과학기술학회마을
2 J.K. Kim, Nishikata, Atsushi Tsuru, "Monitoring of corrosion Rates of Fe-Cu Alloys under Wet-Dry Condition in Weakly Alkaline Environments, " Corrosion Science and Technology, pp.388-390, Oct. 2002.   과학기술학회마을
3 J.M Baek, I.k Hong, "The Design of an Automatically Generated System for Cross Sections of Underground Utilities using Augmented Reality," IJSM Vol 7, No 6, pp.255-264, 2013.
4 "A Study on Monitoring and Management System for City Infrastructure Using USN & GIS Technology," CIVIL EXPO 2007, pp.526-529, Oct. 2007.
5 B.B Lee et. 3, "Research u-City trends via USN technology," NIPA WTT, Aug. 2011.
6 S.M Kim, "Management System and Method on Buried Structure," Pat. 10-2011-0095150
7 K.S. Lee, N.S. Kim, S.Y Kim, "Experience of USN MAC based on 424MHz band IEEE 802.15.4," ICACT 2008, Vol 1, pp.350-353, Feb. 2008.
8 A. Dementryev, et. 3, "Power consumption analysis of Bluetooth Low Energy, ZigBee and ANT sensor nodes in a cyclic sleep scenario, " IEEE IWS 2013, pp. 1-4, Apr. 2013.
9 JW Nam, et 3, "Ventilation control of subway station using USN environmental sensor monitoring system," ICCAS 2011, pp. 305-308, Oct. 2011.
10 Mo Li, Y.H Liu, "Underground structure monitoring with wireless sensor networks, " IPSN 07, pp.69-78, Apr. 2007.
11 J.Y Kim, M.Y Choi, "Automatic wireless link and data transmission system for structure measurement using RF power," Pat. 10-0295416-0000.