JOURNAL BROWSE
Search
Advanced SearchSearch Tips
Development of Data-Flow Control Algorithm of Wireless Network for Sewage Disposal Facility
facebook(new window)  Pirnt(new window) E-mail(new window) Excel Download
 Title & Authors
Development of Data-Flow Control Algorithm of Wireless Network for Sewage Disposal Facility
Jung, Soonho; Shin, Jaekwon; Kang, Jeongjin; Lee, Seungyoun; Lee, Junghoon;
  PDF(new window)
 Abstract
Recently, water sewage disposal facilities are able to manage real-time data collection and record management through compact broadband modem LAN switching technology. Therefore, it needs more stable and efficient facility management. So, we required practical use of environmental facilities convergence based on broadband integrated modem. In this paper, we proposed short distance wireless communication network of compact broadband modem for sewage disposal facilities. And it received data inside of water treatment facility using the two communication methods (IEEE802.11x and IEEE802.15.4x). Then, our proposed an data-flow control algorithm of wireless network technology will prioritize processing data when emergency happen through collecting data, analysis data and processing. Lastly, we proved usefulness by experiment and simulation analysis.
 Keywords
IEEE802.11x;IEEE802.15.4x;Compact Broadband Modem;Short Distance Wireless Communication;
 Language
English
 Cited by
 References
1.
Ministry of environment, "The status report on the operation and management of sewage treatment plants in korea," pp. 8, Ministry of environment, Seoul, 2011.

2.
Korea environment corporation, "The report on the propriety of energy saving project in the sewage treatment plant," p. 51, Ministry of environment, Seoul, 2008.

3.
S. Kang, H. Lee, J. Kim, and K. Han, "Application of Microfiltration and Reverse Osmosis System to Sewage Reuse for Industrial Water," Membrane Journal, Vol. 12, No. 3, pp. 151-157, 2002.

4.
James F. Kurose, Keith W.Ross, Computer Networking 3 edition, 2005

5.
K. Kim, A. Ahmad, and K. Kim, "A Wireless Multimedia LAN Architecture Using DCF with Shortened Contention Window for QoS Provisioning," IEEE Communication Letters, Vol. 7, No. 2, pp. 97-99, Feb. 2003. crossref(new window)

6.
Shinjae Kim, Younggyun Kim. Wanjic Lee, Bumju Shin, Seokyeol Heo, "Design of Ondemand Routing Protocol for Sensor Networks," Journal of Korean Institute of Information Technology, pp. 320-324, June 2009.

7.
Jongwan Yoon, Yongki Ku, Kakyung Oh, Dongryeol Shin, "Middleware for Home Monnitoring System over Heterogeneous Network Environments," Journal of the Korea Academia- Industrial cooperation Society, pp. 283-286, 2009.

8.
Wu Woan Kim, Sang Dong Jang, Jung Hwan Park, Eun Jin Jang, "Development of a Remote Monitoring and Management System for Sewage and Waste Water," KIISE Fall Conference Vol. 31, No. 2, pp. 397-399, Oct. 2004.

9.
Ji-Tae Kim, Haeyoung Hwang, Byungpyo Hong, and Hongsik Byun, "The Background and Direction of R&D Project for Advanced Technology of Wastewater Treatment and Reuse," Membrane Journal, Vol. 21, No. 3, pp. 277-289, Sep. 2011.

10.
Korea environment corporation, "The report on the propriety of energy saving project in the sewage treatment plant," pp.51, Ministry of environment, Seoul, 2008.

11.
The National Energy Technology Laboratory (NETL), A Vision for the Smart Grid, 2009.

12.
Lee D.S. and Vanrolleghem P. A. "On-line monitoring equipment for wastewater treatment processes: state of theart," AutMoNet, Vienna, Australia, 2002.

13.
C. Liting, "Wireless Mesh Monitoring System for Sewage Treatment Plant," International Colloquium on Computing, Communication, Control and Management, IEEE, pp. 351-353, 2009.