周一青,中科院“百人計畫”研究員,博導,IEEE高級會員。
基本介紹
- 中文名:周一青
- 國籍:中國
- 職業:教師
- 畢業院校:香港大學
- 學位/學歷:博士
- 專業方向:無線移動通信技術
- 職稱:研究員
- 發表論文數目:81篇(截至2019年7月)
基本信息,個人簡歷,研究方向,代表論著,科研項目,
基本信息
姓名 周一青
性別 女
個人簡歷
1997年及2000年於東南大學分別獲學士及碩士學位,2004年於香港大學獲得博士學位,其後在香港大學擔任博士後研究員,2008年加入香港套用科學研究院通信群組,擔任主任工程師。目前為中科院計算所-ASTRI先進無線技術聯合研究中心“百人計畫”研究員,負責尖端移動通信技術的研發。
周博士在國際國內知名期刊和會議上發表論文超過30篇,其中包括IEEE系列期刊論文9篇,為書籍“先進多天線系統”(英文)的作者之一,已申請3項美國專利。擔任IEEE JSAC Guest Editor,擔任Globecom,ISCIT,IWCCC等會議的TPC成員,PIMRC分會場主席,並在2009年作為主席組織了國際IMT-A通信研討會(IWATA2009)。
研究方向
無線移動通信技術,包括多天線技術,多載波OFDM,協同傳輸,干擾抵消,信道編解碼,網路編碼,資訊理論,綠色無線電等
代表論著
1. Y. Zhou, Z.G. Pan and K.K. Wong, “Chapter 1. MIMO systems: Multiple Antenna Techniques”, in book “Advanced MIMO Systems”, Science Researching Publishing, USA
1. Y. Zhou, F. Adachi, X. Wang, A. Manikas, X. Zhang and W.P. Zhu, “Broadband Wireless Communications for High Speed Vehicles”, IEEE Journal on Selected Areas in Communications
2. Y. Zhou and Z.G. Pan, “Impact of LPF Mismatch on I/Q Imbalance in Direct Conversion Receivers”, IEEE Transactions on Wireless Communications
3. Y. Zhou and T.S. Ng, “Performance analysis on MIMO-OFCDM systems with Multi-code Transmission”, IEEE Transactions on Wireless Communications
4. Y. Zhou and T.S. Ng, “MIMO-OFCDM Systems with Joint Iterative Detection and Optimal Power Allocation”, IEEE Transactions on Wireless Communications
5. Y. Zhou, J. Wang, and T.S. Ng, “Downlink transmission of broadband OFCDM systems---Part V: Code Assignment”, IEEE Transactions on Wireless Communications
6. Y. Zhou, J. Wang, T.S. Ng, K. Higuchi and M. Sawahashi, “OFCDM: a promising broadband wireless access technique”, IEEE Communications Magazine
7. Y. Zhou and J. Wang, “Downlink transmission of broadband OFCDM systems---Part IV: Soft-decision”, IEEE Journal on Selected Areas in Communications
8. Y. Zhou, J. Wang, and M. Sawahashi, “Downlink transmission of broadband OFCDM systems---Part III: Turbo-coded”, IEEE Journal on Selected Areas in Communications
9. Y. Zhou, J. Wang, and M. Sawahashi, “Downlink transmission of broadband OFCDM systems---Part II: Effect of Doppler Shift”
10. Y. Zhou, J. Wang, and M. Sawahashi, “Downlink transmission of broadband OFCDM systems---Part I: Hybrid Detection”, IEEE Trans. Commun
11. Y. Zhou and J. Wang, “Optimum sub-packet transmission for hybrid ARQ systems”, IEEE Trans. Commun
12. Y. Zhou and A.Q. Hu, “A new synchronization algorithm for OFDM systems using training frames”
13. Y. Zhou and A.Q. Hu, “Performance analysis of adaptive filters and their application in relay protections”
14. Y. Zhou and A. Q. Hu, “Theoretical analysis and realization of frequency down-conversion method in receiving protection signals”
15. Y. Zhou, Z. G. Pan, A. Q. Hu, Y. Z. Zhu, L. Zhang, and G. Y. Zhang, “Application of DSP technology in relay protection signal transmission”
16. L. Tian, Y. Zhou, Y. Zhang, G. Sun and J.L. Shi, “Resource Allocation for Multicast Services in Distributed Antenna Systems with QoS Guarantees”, IET Communications,
17. L. He, S. D. Ma, Y.C. Wu, Y. Zhou, T.S. Ng and V. Poor, “Pilot-Aided I/Q Imbalance Compensation for OFDM Systems Operating over Doubly Selective Channels”, IEEE Transactions on Signal Processing
1. Y. Zhou, Z. G. Pan, Y.C. Zhang, Y. Yuan and J. L. Hu, “Analytical Investigation of LPF Mismatch in Direct Conversion Receivers”
2. Y. Zhou, Z.G. Pan, J.L. Hu, J.L. Shi and X.W. Mo, “Broadband Wireless Communications on High Speed Trains
3. Y. Zhou, Z.G. Pan, L. Tian, G. Sun, and J.L. Shi, “Cell Throughput of Multicast Services in OFDM-Based Distributed Antenna Systems
4. Y. Zhou and T.S. Ng, “Recent Advances in MIMO-OFCDM”
5. Y. Zhou and T.S. Ng, “Performance Investigation of MIMO-OFCDM with Imperfect Channel Estimation”
6. Y. Zhou, Z. G. Pan and H. Ye, “Prefix Design for TDS-OFDM Supporting Frequency Domain Multiple Access”
7. Y. Zhou and T.S. Ng, “Optimal Power Allocation for Channel Estimation in MIMO-OFCDM Systems”
8. Y. Zhou and T.S. Ng, “Performance Analysis for MIMO-OFCDM Systems with Multi-code Transmission”
9. Y. Zhou and T.S. Ng, “Joint Iterative Detection for Multi-code MIMO-OFCDM Systems”, in Proceeding of IEEE ICCSC2008
10. Y. Zhou, J. Wang, and T.S. Ng, “Code assignment for downlink transmission of broadband OFCDM systems”, in Proceeding of PIMRC2007
11. Y. Zhou, J. Wang, and T.S. Ng, “Two Dimensionally Spread OFCDM Systems for 4G Mobile Communications”
12. Y. Zhou, J. Wang, T.S. Ng, K. Higuchi, and M. Sawahashi, “OFCDM-Promising wireless multiple access technique”
13. Y. Zhou, J. Wang, and T.S. Ng, “A novel code assignment scheme for broadband OFCDM systems”
14. Y. Zhou and J. Wang, “Soft MCI cancellation for turbo-coded OFCDM systems”
15. Y. Zhou and J. Wang, “Performance of turbo-coded OFCDM systems with soft hybrid detection”
16. Y. Zhou, J. Wang and M. Sawahashi, “Turbo-coded OFCDM systems for 4G mobile communications”, IEE 3G&B conference
17. Y. Zhou and J. Wang, “High speed wireless turbo-coded OFCDM systems”, in International Conference on Wireless Networks, Communications and Mobile Computing,
18. Y. Zhou and J. Wang, “Effect of fast fading on hybrid detection in VSF-OFCDM systems,” in Proceeding of IEEE ICC
19. Y. Zhou and J. Wang, “Broadband VSF-OFCDM systems with hybrid MCI cancellation and MMSE detection,” in Proceeding of IEEE VTC’2004-Spring
20. Y. Zhou and J. Wang, “Optimum sub-packet transmission for turbo-coded hybrid ARQ systems”, in Proceeding of IEEE ICC
21. Y. Zhou, J. Wang, and T.S. Ng, “Investigation and application of code assignment schemes in OFCDM systems”, Annual Conference of China Institute of Communications
22. Y. Zhou and J. Wang, “Study of soft MCI cancellation in OFCDM systems”, Annual Conference of China Institute of Communications
23. Y. Zhou and J. Wang, “Performance of OFCDM systems in 4G communications”, Annual Conference of China Institute of Communications
24. L. Huang, Y. Zhou, J.L. Hu, X. Han and J.L. Shi, “Coverage Optimization for Femtocell Clusters using Modified Particle Swarm Optimization”
25. J. Li, L. Tian, Y. Zhou, and J.L. Shi, “An Adaptive Handover Trigger Scheme for Wireless Communications on High Speed Rail”
26. X. Han, Y. Zhou, L. Huang and J.L. Shi, “Maximum Entropy Based IP-Traffic Classification in Mobile Communication Networks”
27. N. Guan, Y. Zhou, H. Liu, L. Tian and J. L. Shi, “An Energy Efficient Cooperative Multicast Transmission Scheme with Power Control”
28. L. Tian, Y. Zhou, Y.C. Zhang, G. Sun and J.L. Shi, “Power and Subcarrier Allocation for Multicast Services in Distributed Antenna Systems”
29. N. Guan, Y. Zhou, L. Tian, G. Sun and J.L. Shi, “QoS Guaranteed Resource Block Allocation Algorithm for LTE System”
30. L. Tian, Y. Zhou, J. Li, Y. Huang and J.L. Shi, “A Novel Handover Scheme for Seamless Wireless Connectivity in High-Speed Rail”
31. Z.G Pan and Y. Zhou, “A Practical Double Peak Detection Coarse Timing for OFDM in Multipath Channels”
32. J. Shi, T. Zhang, Y. Zhou, Z. Zeng and Z. Huang, “Rate Loss Caused by Limited Feedback and Channel Delay in Coordinated Multi-point System”
33. Z.G Pan, Y. Zhou and C.L. I, “Bit-wise Exponential ESM (BE-ESM) Method for Accurate Link Level Performance Evaluation”
34. X.Y. Pan, Y. Zhou, S.D. Ma and T.S. Ng, “An improved derivative method for symbol synchronization in OFDM systems”, in Proceeding of WCNC2007
X.Y. Pan, S.D. Ma, H.Z. Wang, Y. Zhou, and T.S. Ng, “Symbol Synchronization Based on Cyclic Prefix for the Uplink of OFDMA Systems”
科研項目
863課題:5G無線傳輸關鍵技術研發
科技部:2013年國家重大科技專項“新一代寬頻無線移動通信網”課題:面向LTE-Advanced的多層/多小區協作關鍵技術研究
北京市自然科學基金委:未來寬頻異構無線網路信息理論與關鍵技術研究
北京市科委:移動計算與智慧型通信北京市國際合作基地能力提升
國家科技部:面向IMT-Advanced增強多媒體多播技術
國家科技部:LTE FDD面向商用終端基帶晶片研發-高鐵環境下信號處理與切換關鍵技術研究
中科院:高速列車線路精密感知與新型控制理論和方法-高速列車智慧型網路拓撲結構及信息傳輸機制
國家重大專項“面向IMT-Advanced增強多媒體多播技術”