Zhou Shidong
- Professor
- Name (Simplified Chinese):Zhou Shidong
- Name (English):Zhou Shidong
- Degree:Doctoral degree
- Professional Title:Professor
- Teacher College:DZGCX
- ZipCode:
- Fax:
- PostalAddress:
- OfficePhone:
- Email:
- Scientific Research
[1] Zhou, Shidong; Zhao, Ming; Xu, Xibin; Wang, Jing; Yao, Yan, “Distributed wireless communication system: A new architecture for future public wireless access”, IEEE Communications Magazine, v 41, n 3, March, 2003, p 108-113
[2] Zhou, Shidong; Li, Yunzhou; Zhao, Ming; Xu, Xibin; Wang, Jing; Yao, Yan , “Novel techniques to improve downlink multiple access capacity for beyond 3G”, IEEE Communications Magazine, v 43, n 1, January, 2005, p 61-69
[3] Han, SF; Zhou, SD; Wang, J; Victor O. K. Li; Kyung Park; Suboptimal transmission of orthogonal space-time block codes over correlated distributed antennas, IEEE SIGNAL PROCESSING LETTERS, 14 (2): 89-92 FEB 2007
[4] Han, SF; Wang, J; Li, VOK; Zhou, SD; Optimal diversity performance of space time block codes in correlated distributed MIMO channels, IEEE TRANSACTIONS ON WIRELESS COMMUNICATIONS, v 7, n 6, 2008, p2106-2118
[5] Sun, Y; Baricz, A; Zhou, SD; On the Monotonicity, Log-Concavity, and Tight Bounds of the Generalized Marcum and Nuttall Q-Functions, IEEE TRANSACTIONS ON INFORMATION THEORY, v 56, n 3, 2010, p 1166-1186
[6] Dai, Lin; Zhou, Shidong; Yao, Yan, “Capacity analysis in CDMA distributed antenna systems”, IEEE Transactions on Wireless Communications, v 4, n 6, November, 2005, p 2613-2620
[7] Zhuang, Hairuo; Dai, Lin; Zhou, Shidong; Yao, Yan, “Low Complexity Per-Antenna Rate and Power Control Approach for Closed-Loop V-BLAST”, IEEE Transactions on Communications, v 51, n 11, November, 2003, p 1783-1787
[8] Cheng, Jinxia; Liu, Chi; Zhou, Shidong; Zhao, Ming; Yao, Yan, “Linear precoding based on sub-channel permutation in post-combining MIMO-HARQ systems”,IEICE Transactions on Communications, v E89-B, n 11, November, 2006, p 3139-3142
[9] Gan, Jiansong ; Zhou, Shidong; Wang, Jing; Park, Kyung, “On the sum-rate capacity of multi-user distributed antenna system with circular antenna layout”, IEICE Transactions on Communications, v E89-B, n 9, 2006, p 2612-2616
[10] Zheng, Haibo ; Chen, Xiang; Zhou, Shidong; Wang, Jing; Zhou, Yongxing; Kim, James Sungjin, “An efficient user selection algorithm for zero-forcing beamforming in downlink multiuser MIMO systems”, IEICE Transactions on Communications, v E89-B, n 9, 2006, p 2641-2645
1. Hi-tech Research and Development Program of China (National 863 Project), Major Project, Research and development of fundamental techniques of higher spectrum and related demonstration system, Mar.2009-Dec.2010, Principal Investigator
The purpose of this project is to investigate the feasibility of higher spectrum (from 6GHz to 15GHz) to be applied for mobile communications, in order to broaden the usable spectrum for future public wireless access. Key technique for coverage, transmission, networking, channel measurement and modeling, and protocols shall be studied. A trial system will be developed to demonstrate the application of higher spectrum.
2. MII Major Project, New radio transmission technique for IMT-Advanced System, Principal Investigator, Nov.2008-Dec.2010, Principal Investigator
This is a joint project with other 8 universities, 5 companies, and 3 research institutes, which includes most of the main research resource on mobile communications in China. Its purpose is to study on suitable techniques of IMT-A system, and provide technique proposals to standard organizations.
3. Hi-tech Research and Development Program of China (National 863 Project), Key technique and demo system development for Gbps transmission, Dec.2006-Dec.2009, Main Researcher
In this project, we developed a trial system supporting 1Gbps transmission within 66MHz, Based on 4*4 MIMO in LOS propagation environment.
4. Hi-tech Research and Development Program of China (National 863 Project), Downlink Design and Implementation of FDD/OFDM system, sub-project of 863 major project: Research and Development of Beyond3G cellular mobile communications network trial system, Nov.2003-Nov.2006, Principal Investigator of sub-project,
In this project, we studied key technique for MIMO OFDM transmission. We developed a trial system in Shanghai, which support 100Mbps mobile transmission. This is the first trial system based on DWCS architecture.
5. National Nature Science Foundation of China, Theory and key technology for wireless communication system based on distributed antennas, Jan.2003-Dec.2006, main researcher.
This project studied the architecture of DWCS, and related key techniques. The new concept of DWCS is proposed, in which distributed antennas are connected to the central processing resource over high rate connections such as optical fibers. This architecture can solve the problem of traditional cellular structure, where inter-cell interference is getting more and more serious. In DWCS, signals to and from distributed antennas can be jointly processed, so that the mutual interference can be well controlled. The concept of COMP in LTE+ can be regarded as a special case of DWCS. This concept is also useful in current new concept of CRAN by China Mobile.
6. Hi-tech Research and Development Program of China (National 863 Project), High speed channel decoder for WCDMA, Aug.1999-June2000, Principal Investigator,
We developed high speed channel decoder for WCDMA, including turbo decoder and Viterbi decoder. The outputs of this project were later transferred to Spreadtrum Company, who integrated them into the first TDSCDMA chipset in the world.
No content
No content
No content
No content