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A Study on the Optimization of Efficient Node-to-Node Disturbance Detection System

  • Journal of Knowledge Information Technology and Systems
  • Abbr : JKITS
  • 2019, 14(6), pp.693-702
  • DOI : 10.34163/jkits.2019.14.6.012
  • Publisher : Korea Knowledge Information Technology Society
  • Research Area : Interdisciplinary Studies > Interdisciplinary Research
  • Received : November 12, 2019
  • Accepted : December 7, 2019
  • Published : December 31, 2019

Byoung-Chan Jeon 1 Hong,In-Sik 2

1청운대학교
2순천향대학교

Accredited

ABSTRACT

A major loss factor for water resources is leaks or pipe damage that prevent the transport of water resources. Leakage or damage of these water pipes is caused by damage caused by aging of the life of the pipes, corrosion on the surface of the pipes, construction of pipes or installation conditions, water supply conditions, and accidents. There are currently a variety of water leak detection techniques applied to the top and bottom pipe networks. Among these systems, existing systems are developed using flow meters, hydraulic pressure systems, ultrasonic waves, optical cables, and monitoring systems using TDR. However, there are many cases where systems are not installed efficiently and cannot be monitored. In addition, existing PC-based systems with high prices need to develop embedded board-based low-cost systems because they are not cost-effective when applying the system to short-range pipelines. However, there is a limitation in function of SW that is currently used on site as it is also developed based on PC. In this paper, the existing monitoring system has the disadvantage of being economically expensive when replacing old pipe or short track less than 1,000m, and that it is too much to cover with existing system even when installing short section or different kinds of landscape. To address these shortcomings, the distance between nodes of the break detection system was optimized for optimal monitoring and development of a water leak detection system with high constructivity and economy by using leak detection sheets (hereinafter referred to as the leak detection sheet).

Citation status

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