哈尔滨工业大学(深圳)智慧通信与网络实验室
深圳短距离无线互联应用产业公共服务平台
科研成果|学术论文

2017

[1] Liqin Ding, Yang Wang and Jiliang Zhang.A Fast Joint Sorting and Reduction Algorithm for MIMO SIC Detection.IET Electronics letters.2017,(SCI(E),EI检索,JCR4区)

[2] Liqin Ding, Yang Wang and Jiliang Zhang.Complex Minkowski Reduction and a Relaxation for Near-Optimal MIMO Linear Equalization.IEEE Wireless Communications Letters.2017,6(1):38-41(SCI(E),EI检索,JCR4区)

2016

[1]Jiliang Zhang, Qiang Li, Kyeong Jin Kim, Yang Wang, Xiaohu Ge and Jie Zhang. On the performance of full-duplex two-way relay channel with spatial modulation, IEEE Transactions on Communications, 2016, 64(12): 4966-4982.(SCI(E),EI检索,JCR2区)

[2Jiliang Zhang, Liqin Ding, Yang Wang and Liujun Hu. Measurement based indoor NLOS TOA/RSS range error modelling. Electronics letters, 2016, 52(2): 165 – 167. (SCI(E),EI检索,JCR4区)

[3]Liqin Ding, Jiliang Zhang, Yang Wang, Exact data BER analysis of embedded fingerprint physical layer authentication over fading channels, IEICE Communications Express, 2016, 5(12).

[4 Liqin Ding, Yang Wang and Jiliang Zhang.A practical complex BKZ reduction algorithmfor near-optimal MIMO SIC detection.IEEE International Conference on Communications .2016:1-6(EI检索)

[5]陈大伟, 汪洋, 张继良, 丁丽琴, 一种NLOS场景TOA估计方法与实测门限优化, 桂林电子科技大学学报, 06, pp 442-448, 2016.

2015

[1] Liqin Ding, Kimmo Kansanen, Yang Wang and Jiliang Zhang. Exact SMP algorithms for integer forcing linear MIMO receivers. IEEE Transactions on Wireless Communications, 2015, 14(12): 6955-6966. (SCI(E),EI检索,JCR 1区)

[2]Liujun Hu, Jiliang Zhang, Yang Wang, Liqin Ding, Shijun Chen and Lujuan Ma. “Spatial characterization of indoor MIMO radio channel at both 6.05GHz and 2.45GHz based on measurement,”7th International Conference on Wireless Communications and Signal Processing(WCSP), 2015

[3] 胡留军,张继良,汪  洋,丁丽琴,陈诗军. 2.4G-2.5G室内宽带MIMO信道传播特性研究. 中兴通讯技术, 2015

[4]胡留军,张继良,汪洋,丁丽琴,陈诗军. 走廊环境极化信道大尺度特性测量与建模.桂林电子科技大学学报,2015, 35(5): 361-365.

[5]王洋,汪洋,张继良,胡留军. 基于解析误比特率的空间调制系统配置优化. 哈尔滨工业大学学报, 2015, 47(11).

[6]陈冬明,汪洋,张继良,李银,向少华. 高阶马尔可夫链无线链路连通性建模. 哈尔滨工业大学学报, 2015,47(3).

2014

[1]Jiliang Zhang, Yang Wang, Liqin Ding and Naitong Zhang.Bit Error Probability of Spatial Modulation over Measured Indoor Channels.IEEE Transactions on Wireless Communications. 2014,13(3):1380-1387(SCI(E),EI检索,JCR2区)

[2]Jiliang Zhang, Yang Wang, Liqin Ding, Xiaomin Huang and Naitong Zhang. MIMO Channel Measurement and Characterization at 6.0-6.4 GHz under Typical Classroom Environment. Journal of Harbin Institute of Technology, 2014, 21(1): 69-76.

[3]黄晓敏,汪洋,张继良,张乃通. 车联网无线链路传输数据业务性能评估[J]. 北京邮电大学学报, 2014, S1期(s2):66-71.

2013:

[1]Jiliang Zhang, Yang Wang, Liqin Ding, Juyin Gao and Naitong Zhang.On the Error Probability of Spatial Modulation over Keyhole MIMO Channels.IEEE Communications Letters.2013,17(12):2221-2224(SCI(E),EI检索,JCR 3区)

[2]Jiliang Zhang, Yang Wang, Liqin Ding, Xiaomin Huang and Naitong Zhang. Eigenvalue Modeling and Cross-Correlation Analysis for 6.0-6.4GHz MIMO Channel. Journal of Harbin Institute of Technology (New Series).2013,20(5):1-5(EI检索)

[3]张继良,汪洋,黄晓敏,苗广东,张乃通. 室内6.05GHz和2.45GHz多输入多输出无线信道特性对比分析[J]. 电波科学学报, 2013, 02期(2).

[4]Jiliang Zhang, Yang Wang, Liqin Ding, Xiaomin Huang and Naitong Zhang. “Eigenvalue modeling and cross-correlation analysis for 6.0-6.4GHz MIMO channel,” Journal of Harbin Institute of Technology (New Series), 2013, 20(5): 1-5.

2012:

[1]张继良,汪洋,丁丽琴,闫大勇,李西,张乃通. 6.0-6.4GHz室内MIMO无线信道测量与传播特性分析[J]. 电子学报, 2012, 40(6):1213-1217.

2011:

[1]肖海微,汪洋,张继良,张钦宇. 基于LDPC码与星座旋转准正交STBC的级联编译码方法[J]. 系统工程与电子技术, 2011, 33(9):2122-2125.

2010:

[1]Liqin D, Yang W, Jiliang Z,Limei L Xi L,Dayong Y. Investigation of spatial correlation for two-user cooperative communication in indoor office environment,12th IEEE International Conference on Communication Technology (ICCT), 2010: 420-423.

[2]Lin L, Wang Y, Zhang J, Yan D. Wideband MIMO channel spatial correlation measurement under different polarization patterns, IEEE International Conference on Information Theory and Information Security (ICITIS), 2010: 751-754.

[3]Jiliang Zhang, YangWang, Xi Li, Qinyu Zhang and Naitong Zhang. Wideband MIMO channel spatial correlation measurement in rich scattering indoor environment, 12th IEEE International Conference on Communication Technology (ICCT), 2010:343-346

[4]张继良,汪洋,刘法,张乃通. 控制信道受限的认知无线电联合频谱感知[J]. 系统工程与电子技术, 2010, 第6期(6):1113-1116.

2009:

[1]Yang Wang, Jie Zhang, Qinyu Zhang, Naitong Zhang, Evaluation of an ultra-wide bandwidth wireless indoor non-line-of-sight channels,” Wireless Communication and Mobile Computing, 2009, 9(2): 169-179.((SCI(E),JCR4区)

2008:

[1]Wang Yang, Zhang Naitong, Zhang Qinyu, Zhang Zhongzhao,“Simplified calculation of UWB signal transmitting through a finitely conducting slab,” Journal of System Engineering and Electronics, 2008,19(6): 1070-1075..(SCI(E),JCR4区)

[2]Wang Yang, Zhang Naitong, Zhang Zhongzhao, “Deconvolution techniques for characterizing indoor UWB wireless channel,” Journal of System Engineering and Electronics, 2008, 19(4): 688-693.(SCI(E),JCR4区)

[3]Wang Yang, Zhang Naitong, Zhang Qinyu, Zhang Zhongzhao, “Deterministic simulation of UWB indoor propagation channel,” Journal of System Engineering and Electronics, 2008, 19(3):447-452.(SCI(E),JCR4区)

[4]WANG Yang, ZHANG Qin-yu, ZHANG Nai-tong, LIU Fa, ZHANG Ji-liang. “A ground reflection model for I-UWB signal propagation,” Journal of Harbin Institute of Technology, 2008, 15(1): 23-26.

2007:

[1]Wang Yang, Zhang Naitong, Zhang Qinyu, Zhang Zhongzhao, “Characterizing ultra-wide band indoor line-of-sight wireless channel,” Journal of System Engineering and Electronics, 2007, 18(4): 673-678..(SCI(E),JCR4区)

[2]Yang W, Shiji W, Qinyu Z, Naitong, Z. The Propagation Characteristics of Ultra-Wide Band Signals in Indoor Line-of-Sight Wireless Channel,IEEE Wireless Communications and Networking Conference(WCNC), 2007: 1604-1608.

[3]Yang W, Qinyu Z, Naitong Z, Xinwei Z. Time Domain Analysis of UWB Pulsed Field Diffraction, IEEE International Conference on Microwave and Millimeter Wave Technology (ICMMT2007),  2007:1-4.

[4]Yang W, Qinyu Z, Jie Z, Naitong Z. Analysis of UWB pulsed field diffracted by a perfectly conducting wedge, 2nd IEEE Conference on Industrial Electronics and Applications (ICIEA 2007), 2007: 1539-1542.

[5]Yang W, Zhi X, Zhang Q, Naitong Z. Pulsed Field Diffraction by a Perfectly Conducting Wedge: Time Domain Approach, IEEE Second International Conference on Innovative Computing, Information and Control (ICICIC '07), 2007:590-590.

[6]Yang W, Naitong Z, Qinyu Z, Jun Y. A 2-ray path loss model for i-uwb signals transmission, IEEE International Conference on Wireless Communications, Networking and Mobile Computing (WiCom 2007), 2007: 554-556.

[7]Yang W, Qinyu Z, Naitong Z. Time Domain Calculation of UWB Impulse Signal Transmitting through a Finitely Conducting Slab, IEEE International Symposium on Microwave, Antenna, Propagation and EMC Technologies for Wireless Communications, 2007: 822-825.

[8]Yang W, Qinyu Z, Naitong Z, Guangning X. Time Domain Calculation of UWB Pulsed Field Reflected from a Lossy Half Space, IEEE International Conference on Ultra-Wideband, (ICUWB 2007), 2007: 779-783.

[9]Wang Y, Zhang N, Zhang Q, Zhang Z. Time domain characteristics of UWB signal transmitting through a finitely conducting slab, Second International Conference on Spatial Information Technology. International Society for Optics and Photonics, 2007: 679506 1-6.

[10]Wang Yang, Zhang Qinyu, Zhang Naitong, Zhang Jie, “Path loss characteristics for UWB signal longdistance transmission,”International Conference on Space Information Technology (ICIST2007), Proc. of SPIE, Vol. 6795 67951G 1-6

[11]Wang Yang, Xu Hongguang, Zhang Qinyu, Zhang Naitong, “UWB channel modeling for indoor line of-sight environment,” Journal of Harbin Institute of Technology, 2007, 14(6): 866-870.

2006:

[1]Wang Yang, Zhang Naitong. “Investigating path loss characteristics of UWB signals in vacancy indoor environment based on time-domain technique,”Journal of System Engineering and Electronics, 2006,17(2): 296-302.

[2]Yang W, Qinyu Z, Naitong Z, Yasong W. A Statistical Model for Indoor UWB LOS Channels, IEEE International Conference on Wireless Communications, Networking and Mobile Computing, (WiCOM 2006), 2006:1-4.

[3]Wang Yang, Zhang Naitong, Qiu Hongbing, Zheng Lin, A frequency-dependent pathloss model for UWB indoor non-line-of-sight environment, International Symposium on Antennas and Propagation, 2006: 1-4.

[4]Yang W, Naitong Z. A new multi-template CLEAN algorithm for UWB channel impulse response characterization, IEEE International Conference on Communication Technology (ICCT'06), 2006.

[5]Yang W, Peipei C, Xinwei Z, Qinyu Z,Naitong Z. Characterization of indoor ultra-wide band NLOS channel, IEEE Wireless and Microwave Technology Conference, (WAMICON'06), 2006.

[6]Yang W, Naitong Z, Qinyu Z, Huanshui Z. Time-Domain Investigating Path Loss Characteristics of UWB Signals in Indoor Line-of-Sight Environment, IEEE International Conference on Wireless Communications, Networking and Mobile Computing, (WiCOM 2006), 2006.

[7]Wang Y, Zhang N T, Zhu H B. A statistical model for UWB non-line-of-sight indoor environment, International Symposium on Antennas and Propagation (ISAP), 2006.

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