Yunzhou Qiu
Chinese Academy of Sciences
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Publication
Featured researches published by Yunzhou Qiu.
Eurasip Journal on Wireless Communications and Networking | 2008
Kai Yan; Sheng Ding; Yunzhou Qiu; Yingguan Wang; Haitao Liu
Orthogonal frequency division multiplexing- (OFDM-) based amplify-and-forward (AF) cooperative communication is an effective way for single-antenna systems to exploit the spatial diversity gains in frequency-selective fading channels, but the receiver usually requires the knowledge of the channel state information to recover the transmitted signals. In this paper, a training-sequences-aided linear minimum mean square error (LMMSE) channel estimation method is proposed for OFDM-based cooperative diversity systems with multiple AF relays over frequency-selective fading channels. The mean square error (MSE) bound on the proposed method is derived and the optimal training scheme with respect to this bound is also given. By exploiting the optimal training scheme, an optimal low-rank LMMSE channel estimator is introduced to reduce the computational complexity of the proposed method via singular value decomposition. Furthermore, the Chu sequence is employed as the training sequence to implement the optimal training scheme with easy realization at the source terminal and reduced computational complexity at the relay terminals. The performance of the proposed low-complexity channel estimation method and the superiority of the derived optimal training scheme are verified through simulation results.
international conference on advanced communication technology | 2008
Kai Yan; Sheng Ding; Yunzhou Qiu; Yingguan Wang; Haitao Liu
This paper presents a simple single-carrier (SC) distributed space-time block coded transmission scheme for asynchronous cooperative communications over frequency-selective channels. The cyclic prefix (CP) at the source node and relay nodes is used to combat inter-symbol interference from multi-path fading and the timing errors from the relay nodes. In this scheme, the relay nodes only implement very simple operations on their received signals to construct distributed space-time block code, and decoding, DFT and IDFT operations are only needed at the destination node. The low complexity SC zero-forcing frequency domain equalization (ZF-FDE) is applied at the destination node to recover the transmitted signals. The analysis and simulation results demonstrate that this simple SC scheme can achieve order-two spatial diversity gain for amplify-and-forward based cooperative communication over frequency-selective channels in the presence of asynchronization between relay nodes.This paper proposes a simple orthogonal frequency -division multiplexing (OFDM) transmission scheme for asynchronous cooperative communications over frequency-selective fading channels. In this scheme, the relay nodes only implement very simple operations on their received signals, and no decoding, DFT or IDFT operation is needed. With our proposal, the received signals have the Alamouti code structure on each subcarrier, and thus, it has the fast symbol-wise ML decoding. The analysis and simulation results demonstrate that our simple scheme can achieve order-two spatial diversity gain for amplify-and-forward based cooperative communications over frequency-selective fading channels in the presence of asynchronization between relay nodes.
Archive | 2011
Yunzhou Qiu; Minghua Zhu; Kai Yan; Sheng Ding; Jian Jiang; Haitao Liu
Archive | 2008
Kai Yan; Sheng Ding; Yunzhou Qiu; Jian Jiang; Minghua Zhu
Archive | 2008
Sheng Ding; Kai Yan; Yunzhou Qiu; Jian Jiang; Minghua Zhu; Haitao Liu
Archive | 2008
Yunzhou Qiu; Haitao Liu; Yingguan Wang; Sheng Ding; Kai Yan
Archive | 2008
Yunzhou Qiu; Haitao Liu; Yingguan Wang; Jian Jiang; Minghua Zhu
Archive | 2011
Yunzhou Qiu; Minghua Zhu; Haitao Liu; Sheng Ding; Jian Jiang; Kai Yan
Archive | 2008
Kai Yan; Sheng Ding; Yunzhou Qiu; Minghua Zhu; Yingguan Wang; Haitao Liu
Archive | 2011
Chen Chen; Yusong Shi; Jian Jiang; Hua Jiang; Kai Yan; Sheng Ding; Yunzhou Qiu; Haitao Liu