JOURNAL BROWSE
Search
Advanced SearchSearch Tips
Cross-layer Design of Joint Routing and Scheduling for Maximizing Network Capacity of IEEE 802.11s based Multi-Channel SmartGrid NAN Networks
facebook(new window)  Pirnt(new window) E-mail(new window) Excel Download
 Title & Authors
Cross-layer Design of Joint Routing and Scheduling for Maximizing Network Capacity of IEEE 802.11s based Multi-Channel SmartGrid NAN Networks
Min, Seok Hong; Kim, Bong Gyu; Lee, Jae Yong; Kim, Byung Chul;
  PDF(new window)
 Abstract
The goal of the SmartGrid is to maximize energy efficiency by exchanging bi-directional real-time power information with the help of ICT(Information and Communication Technology). In this paper, we propose a "JRS-MS" (Joint Routing and Scheduling for Multi-channel SmartGrid) algorithm that uses numerical modeling methods in IEEE 802.11s based STDMA multi-channel SmartGrid NAN networks. The proposed algorithm controls the amount of data transmission adaptively at the link layer and finds a high data-rate path which has the least interference between traffic flows in multi-channel SmartGrid NAN networks. The proposed algorithm improve transmission performance by enhancing network utilization. By comparing the results of performance analysis between the proposed algorithm and the JRS-SG algorithm in the previous paper, we showed that the JRS-MS algorithm can improve transmission performance by maximally utilizing given network resources when the number of flows are increasing in the multi-hop NAN wireless mesh networks.
 Keywords
Joint routing and scheduling;Cross-layer design;SmartGrid NAN Networks;Convex Optimization;
 Language
Korean
 Cited by
 References
1.
Soonsik Shin, "Smart Grid Annual Report 2013", Ministry of Trade, Industry & Energy, Nov. 2014.

2.
Sungkuk Youn, "Structure of SmartGrid Communication Networks and Role of Power-line Communication", KICS Journal, Vol. 31, No. 11, pp95-101, Nov. 2014.

3.
MinSeok Kim, SungRyul Kim, Jeonghyun Kim, and Younghwan Yoo, "Design and Implementation of MAC Protocol for SmartGrid HAN Environment", proceedings of the IEEE CIT 2011, Sep. 2011.

4.
Youngsun Kim, Hui-Myoung Oh, Sungsoo Choi, "A Method for Simulation of Smart Grid Communication Network Architecture", KICS Journal, Vol.38B, No.2, pp.122-129, Feb. 2013. crossref(new window)

5.
Yunyoung Ahn and Changmin Park, "Technical Trend of AMI Networks in SmartGrid", Weekly Technical Trends, National IT Industry Promotion Agnecy, Oct. 2012.

6.
R&D Planning Department, "AMI Technical Trend for SmartGrid Deployment", Broadcast Communication Technology Issue & Prospect, Korea Communications Agency, Vol. 53, Feb. 2014.

7.
Christopher L. Barrett, Gabriel Istrate, V. S. Anil Kumar, Madhav V. Marathe, Shripad Thite, Sunil Thulasidasan, "Strong Edge Coloring for Channel Assignment in Wireless Radio Networks", IEEE WS on FAWN 2006.

8.
Kaouther Drira, Hamida Seba, Brice Effantin, and Hamamache Kheddouci, "Distance Edge Coloring and Collision-Free Communication in Wireless Sensor Networks", Wiley Online Library-Networks, pp. 35-47, Jan. 2013.

9.
Jaims P. Ignizio and Tom M. Cavalier, 'Linear Programming', Prentice Hall, 1994.

10.
Richard L. Burden, J. Douglas Faires, 'Numerical Analysis', 9th Edition, BROOLS/COLE, 2010.

11.
Seokhong Min, Junguk Kong, Byungchul Kim, Jaeyong Lee, "Design and Performance Evaluation of the Multi-Gateway SmartGrid NAN Networks for Maximizing Network Capacity", International Journal of Applied Engineering Research, Vol. 10, NO. 11, pp. 2666-2681, Jan. 2015.