Work place: School of Electronics and Information Engineering, South China University of Technology, Guangzhou, China
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Research Interests: Computational Science and Engineering, Computational Engineering, Information Systems, Information Retrieval, Information Storage Systems, Multimedia Information System
Biography
Fangjiong Chen received the Ph.D. degree in communication and information system in 2002. He is currently an associate professor in the school of electronics and information engineering, south China University of technology. His research interest focuses on Phisical layer of wireless communication.
By Fei Ji Fangjiong Chen Shangkun Xiong Xiaodong Chen Ying Liu
DOI: https://doi.org/10.5815/ijwmt.2011.06.02, Pub. Date: 15 Dec. 2011
Beam cooperative scheduling of downlink transmission is an important technique to improve the spectrum efficiency in next generation mobile networks. This paper focuses on switched beams (the emission angles of the beams are fixed) and proposes a joint beam-power coordinative scheduling algorithm among neighbor sectors in the downlink of mobile systems. Each sector coordinates the applied order and transmitted power of the beams with adjacent interfering sector, so as to reduce inter-sector interference and maximize throughputs. This scheduling problem is modeled as a constrained optimization problem and solved by our proposed iterative approach. Computer simulation shows that the proposed approach significantly outperform the existing round robin beam servicing approach and the approach that applies only beam cooperative scheduling.
[...] Read more.By Ying Liu Fangjiong Chen Fei Ji Xiaodong Chen Shangkun Xiong
DOI: https://doi.org/10.5815/ijcnis.2011.02.02, Pub. Date: 8 Mar. 2011
Beam cooperative scheduling of a downlink transmission is an important technique to improve the spectrum efficiency in next generation mobile networks. This paper focuses on switched beams (the emission angles of the beams are fixed) and proposes a joint beam-power coordinative scheduling algorithm among neighbor sectors in the downlink of mobile systems. Each sector coordinates the applied order and transmitted power of the beams with adjacent interfering sector, so as to reduce inter-sector interference and maximize throughputs. The scheduling problem is modeled as a constrained optimization problem and solved by our proposed iterative approach. Computer simulation shows that the proposed approach significantly outperform the existing round robin beam servicing approach and the approach that applies only beam cooperative scheduling.
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