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zgx

郑国莘 教授

办公室:

上海大学宝山校区东区通信B317

通信地址:

上海市上大路99号上海大学通信学院

邮政编码:

200444

电话:

13501636916

电子邮件:

gxzheng@staff.shu.edu.cn

English Version

个人主页:

https://scie.shu.edu.cn/Prof/zgx.htm

 

【学术经历】

1981年毕业于太原工学院无线电技术专业本科;

1987年在山西矿山学院工业自动化专业获硕士学位;

1987年至2000年在太原理工大学任教;1999年担任教授;

1995年应邀在香港中文大学微波实验室任助研;

2005年应邀在新加坡南洋理工大学电子电气工程系任TCT交流学者

2000年起在上海大学任教,博士生导师。

 

【研究领域】

从事限定空间无线电通信方面的教学和研究。

 

【学术兼职】

中国电子学会微波专业委员会委员,微波与光通信分会主任委员。

上海市电子学会理事,微波专业委员会副主任委员。IET 资深会员。

中国城市轨道交通信号系统国际评标专家。

上海市电机工程学会轨道交通电气化专业委员会委员。

上海交通电子行业协会轨道交通专家委员会委员。

上海申通地铁集团信号专业委员会委员。

  

【获奖】

2019年“面向轨道交通多业务融合的无线宽带通信关键技术研究与应用” 上海市科技进步奖二等奖(第二获奖人)

2014年“轨道交通及铁路无线通信专用测试技术及应用”上海市科技进步奖三等奖(第一获奖人)

2010年“城市轨道交通无线通信系统关键技术”上海市科技进步奖三等奖(第一获奖人)

2010年“轨道交通车地无线通信测试平台”上海国际工博会高校展区一等奖(第一完成人)

2009年“探索在美学意境中实践通信原理的教学”上海市级教学成果二等奖(第一获奖人)

2008年“探索在美学意境中实践通信原理的教学”上海大学校级教学成果特等奖(第一获奖人)

2008年宝钢优秀教师奖

2000年“地下限定空间中高频UHF无线电波传播机理的研究”山西省科技进步二等奖(第二获奖人)

  

【主讲课程】

通信原理

通信概论

通信原理概论

宽带无线通信

改变生活的通信技术

 

【科研项目】

20002002 主持国家自然科学基金项目,工作面及顺槽个人通信系统

20002001 主持山西省科委自然基金项目,矿用电器的电磁兼容性研究

20012002年参加上海市科委重大项目,蓝牙技术应用研究

20022003主持上海申通集团委托项目,上海轨道交通无线通信系统组网方案的研究,

20042005主持制定上海市城市建设地方标准,城市轨道交通无线通信系统技术规范

20042006 主持上海市科委重点项目,城市轨道交通无线通信系统互联互通的研究

20052007负责上海市科委国际合作项目,UWB关键技术的研究,

20052006参加上海市申通轨道交通研究咨询有限公司项目,轨道交通车载视频监控系统

20062007 参加上海市申通轨道交通研究咨询有限公司项目, 5.8GHz无线频段车-地视频传输研究

20052006主持国家863”计划高速磁浮交通技术重大专项子课题, 毫米波在特殊空间传播规律的研究

20052008主持上海欣民通信有限公司项目,轨道交通车载视频监控系统研究

20072008主持国家863”计划高速磁浮交通技术重大专项子课题(ZX-06-800-025),毫米波通信系统在隧道内传播特性的测试

20072009承担上海市经委重大技术装备研制专项(企业第一负责人,申请人第二负责人),轨道交通列车控制系统中无线通信系统的研发

20092010主持十一五国家科技支撑计划高速磁浮交通系统总体性能指标评估及各子系统技术参数测试、试验研究子课题(115-06-YK-018),高速磁浮毫米波在隧道和穹隆站台内通信的系统性能仿真

20092010主持十一五国家科技支撑计划高速磁浮交通系统关键技术攻关与创新研究子课题(11504YK-031),磁浮无线电系统场强测试技术研究

20092011主持国家自然科学基金面上项目(60872021),基于甚小线性调频的超窄带高速无线通信关键技术研究

20102011主持科技部科技人员服务企业行动项目(2009GJC00045)轨道交通无线通信测试平台,

20082009上海国际合作白玉兰基金项目(2008B050) 城市轨道交通车地无线电通信技术合作研究(美国密西根大学)

20122015主持国家自然科学基金面上项目(61171086 隧道内微波毫米波信号无线传输的建模与实时仿真理论

20122016负责国家自然科学基金重点项目(61132003 面向地下轨道交通的无线信道模型构建与应用

20132015 主持上海市科委重大项目(13511503003CBTC无线通信系统抗干扰测试及综合技术研究

2011年主持上海申通集团 CBTC无线通信方式与相关技术研究,无线通信技术,对抗wifi干扰。

2012年主持上海申通集团轨道交通网络通信系统检测技术研究,上海大学专用信道技术移植到申通地铁技术中心,完成市科委重点项目,开拓公司无线电通信测试业务。

2013年主持上海申通集团增强型CBTC系统预研究,研究CBTC新型无线通信技术。

2013年主持上海申通集团CBTC系统改进研究,研究原有系统改造技术。

20152017 主持上海市科委重大项目(15511107203),城市轨道交通智能行车监控系统信息安全关键技术研究。

20152017主持上海张江国家自主创新示范区专项发展资金重点项目(201505-ZB-C101-008),基于CBTC系统LTE综合试验室建设与应用研究。

20162019主持国家自然科学基金面上项目(61571282),车车信道的非平稳时频分析以及短时延半实物信道仿真。

20182020主持上海上海市科委重点项目(18511105705),轨道交通信息安全实验平台及应用。

20192022主持国家自然科学基金面上项目(61871261),漏泄电缆的群信道的相关性及其MIMO系统综合性能的研究。

  

【论文与专利】

1.         Asad Saleem Min Wang Guoxin Zheng and Xiaoyu Yin, Spatial Characteristics of Wideband Channels Using Leaky Coaxial Cables in Tunnel Scenario, International Journal of Antennas and Propagation vol. 2019 Article ID 9374905 10 pages 2019.

2.         Zhicheng Ren Fangqi Zhang Guoxin Zheng Asad Saleem and Ke Guan, A 3D Non-Stationary Channel Model with Moving Mobile Station in Rectangular Tunnel, International Journal of Antennas and Propagation vol. 2019 Article ID 6750153 12 pages 2019

3.         Liu Xi Yin Xiaoyu Zheng Guoxin, Experimental Investigation of Millimeter-Wave MIMO Channel Characteristics in Tunnel, IEEE ACCESSDigital Object Identifier 10.1109/ACCESS.2019.293257.

4.         Ye JiangGuoxin Zheng, Xiaoyu Yin, Asad Saleem, Bo Ai, Performance Study of Millimeter-wave MIMO Channel in Subway Tunnel Using Directional Antennas, IET Microwaves, Antennas & Propagation, 2018.2.26.

5.         Xiaoyu Yin , Xi Liu, Guoxin Zheng , Asad Saleem, and Xuping Zhai, 28-GHz Channel Characterizationfor a Short Tunnel, IEEE Microwave and Wireless Components Letters, 2018.12.4.

6.         Pan, Yun-Tian, Zheng, Guo-Xin, Wang, Tao, Investigation of MIMO Channel Correlation and Capacity in Curved Subway Tunnel, IEEE Antennas and Wireless Propagation Letters (IF 1.79), 2016.01.01, 15: 1698~1702.

7.         Wu, Yiming, Zheng, Guoxin, Wang, Tao, Performance Analysis of MIMO Transmission Scheme Using Single Leaky Coaxial Cable, IEEE Antennas and Wireless Propagation Letters(IF 1.79), VOL. 16, 2017, 298-301.

8.         Wu, Yiming, Zheng, Guoxin, Saleem, Asad, Zhang, Yue Ping, An Experimental Study of MIMO Performance Using Leaky Coaxial Cables in a Tunnel, IEEE Antennas and Wireless Propagation Letters(IF 1.79), VOL. 16, 2017:1663-1666.

9.         Yun-Tian Pan, Guo-Xin Zheng, and Claude Oestges, Characterization of Polarized Radio Channel With Leaky Coaxial Cable in a Tunnel-Like Environment, IEEE Antennas and Wireless Propagation Letters(IF 1.79), VOL. 16, 2017:2803-2807.

10.     Dakui Wu, Guoxin Zheng, Compact Dual-Band Coupler for Vehicular Beam-Forming Array, International Journal of Antennas and Propagation(IF 1.16), 2017.1.18, 2017:1-6.

11.     LI Zhen, ZHU Xiang, JI Wenli, ZHENG Guoxin, The Real-Time, Simulation of Doppler Spread in Wireless Mobile Environment by RF Circuits, Chinese Journal of Electronics(IF0.51), 2015.10.01,244):837~843.

12.     Qingfeng DING, Guoxin Zheng, Liu YANG, The Novel Channel Estimation Algorithms for Rail Wireless Communication Relying on Prediction Theory, Journal of Computational Information Systems(IF1.3), 2013.01.01,923):9405~9412.

13.     Ding, Qing-Feng, Zheng, Guo-Xin, Yang, Liu, Cellular differential evolution combined opposition-based learning initialization with orthogonal crossover, Beijing Youdian Daxue Xuebao/Journal of Beijing University of Posts and Telecommunications,2014.01.01, 373):7~12.

14.     Ding Qing-Feng, Zheng Guo-Xin, Zuo Li-Xia, Wu Peng, Design of MVBC Frame Transceiver Based on VHDL Information Technology, Information Technology Journal (IF2.2)2013.12.01,1218):4362~4367.

15.     Liu Yang, Weidong Xiang and Guoxin Zheng, A Study on Vehicle Connectivity for VANETs Adopting Beamforming Antenna Array, Mathematical Problems in Engineering(IF0.8), Volume 2017, Article ID 6240984,1-6G. X. Zheng, J. H. Sheng, and Y. P. Zhang, Propagation of UHF Radio Waves in Trapezoidal Tunnels, Microwaves and Optical Letters, 1999, Vol., 20: 295-297.

16.     Guoxin Zheng, Yanrong Ruan, Kai Kai, The channel emulator for CBTC wireless communication system, 2010 7th International Symposium on Communication Systems Networks and Digital Signal Processing (CSNDSP), UK, 2010. 9: 464-468.

17.     Guoxin Zheng, Ruisheng Zhao, Yanrong Ruan, Kai Kai, The radio channel emulator for CBTC wireless communication systems, IET International Communication Conference on Wireless Mobile and Computing (CCWMC 2009),  2010.7: 257-260.

18.     Zheng Guoxin, Recent Advances in Vehicular Communications and Networks in China -The development of Millimeter Radio for Shanghai Maglev System Communications, keynote speech, The First IEEE International Conference on Wireless Access in Vehicular Environments (WAVE2008), Detroit, USA, Dec., 8-9, 2008.

19.     Zheng Guoxin, Yang Weiying, The Orthogonal Very Minimum Chirp Keying (OVMCK) Modulations with Very High Bandwidth Efficiency, IEEE International Symposium on Antenna and Propagation and USNC/URSI National Radio Science Meeting, San Diego, USA, July 7-13, 2008.

20.     Y. P. Zhang, G. X. Zheng, and J. H. Sheng, Radio propagation at 900 MHz in underground coal mines, IEEE Transactions on Antennas and Propagation, 2001Vol: 49, No 5: 757-762

21.     Li  Zhang, Guoxin Zheng, Adaptive QoS-aware Channel Access  Scheme for Cognitive Radio Networks, International Journal of Ad Hoc and Ubiquitous Computing, 2010, 6(3): 172-182.

22.     Y. P. Zhang , Y. Hwang , G. X. Zheng, A gain-enhanced probe-fed microstrip patch antenna of very high permittivity ,Microwave and Optical Technology Letters, Volume 15, Issue 2: 89 - 91

23.     Mei Sun, Yueping Zhang, Guo Xin Zheng, Wen Yan Yin, Performance of Intra-chip Wireless Interconnect Using On-chip Antennas and UWB Radios. Antennas and Propagation, IEEE Transactions on, Volume: 57 , Issue: 9 , 2009: 2756 - 2762

24.     Li Zhang, Guoxin Zheng, Dongli Jia, Spectrum Pooling Vertical Handover for Heterogeneous Cognitive Radio Networks with QoS Constrains, Journal of Convergence Information Technology, 2010, 5(5): 156-169

25.     Li Zhang, Guoxin Zheng, Dongli Jia, Reliable Information Transmission: A Chaotic Sequence-Based Authentication Scheme for Radio Environment Maps Enabled Cognitive Radio Networks, International Journal of Digital Content Technology and its Applications, 2010, 4(4): 48-57.

26.     Li Changyi; Zheng Guoxin; Ai Qian Channel estimation for OFDM based UWB wireless communications WSEAS Transactions on Circuits and Systems, Vol., 4, No., 11, November, 2005: 1765-1769.

27.     Zheng Guoxin, Feng Jinzhen, Jia Minghua, Very Minimum Chirp Keying as a Novel Ultra Narrow Band Communication Scheme, ICICS, Singapore, Dec.,11-13, (2007), invited paper.

28.     Zheng Guoxin, Yang Weiying, He Hui, Zhao Xing, Jiang Junchao, Jiang Lu, Non DC Offset Very Minimum Chirp Keying Modulation as a Novel Ultra Narrow Band Communication Scheme, CCWMSN07 Proceeding, Shanghai,Dec.2007, 12-14: 755758.

29.     贾东立,郑国莘,基于混沌和高斯局部优化的混合差分进化算法,控制与决策,Vol.25 No.6 20106月:1-4

30.     张立,郑国莘,贾东立,朱亚洲,认知无线电网络中基于控制信道预约的MAC协议”, 北京邮电大学学报,2010, Vol. 33, No. 4: 76-79

31.     冯金振,郑国莘ChirpBOKBPSK调制超宽带无线传输技术,应用科学学报,200826,(2:123126

32.     文,郑国莘,正交Hermite脉冲的超宽带的多用户通信,电子与信息学报,200628(5):852856

33.     李畅怡,蒋婷婷,郑国莘 基于正交频分复用的超宽带无线通信中的信道估计技术,科学技术与工程,20066,(8:960-963

34.     贾东立,郑国莘,张立,朱亚洲,甚小线性调频键控调制波形的正弦基拟合优化,上海大学学报,Vol.16, No.420108月:331-335

35.     赵幸,郑国莘,邱志易,过冰,曾凯伦,甚小线性调频信号的正交性分析,上海大学学报,Vol.16, No.420108月:355-360

36.     蒋婷婷 , 郑国莘 郑瑞杰, IR-UWB测距在多径信道下的时延性能分析  应用科学学报 2007,03: 327330

37.     郑国莘,对上海轨道交通无线通信系统建设的若干考虑 ,电信快报, 20045:11-13

38.     王慎林, 郑国莘,电网参数快速测量法在矿用电网监测中的应用,太原理工大学学报, 1999 3:751-757

39.     高志英, 郑国莘,超宽带跳时扩频通信系统性能分析, 上海大学学报: 自然科学版, 200410卷第320046月上海大学学报(自然科学版) Vol10 NO3 Jun2004: 225-229

40.     TIAN Jin-peng, ZHENG Guo-xin, Real-time localization estimator of mobile node in wireless sensor networks based on extended Kalman filter. J Shanghai Univ (Engl Ed), 2011, 15(2): 1–4

41.     王志麟,郑国莘,开 ,阮艳荣,轨道交通基于通信的列车控制,无线通信系统测试平台,城市轨道交通研究,2010,(3: 525559

42.     周祥蔡维浩郑国莘贺辉,轨道交通中无线局域网性能分析与优化,微计算机信息200818):108-110.

43.     贾明华,郑国莘,赵幸,张欣, 矩形隧道中电波传播特性预测,上海大学学报,2011171: 68-73

44.     张跃平,张文梅,郑国莘,盛剑桓,预测隧道中传播损耗的混合模型,电子学报,2001,299: 1283-1286

45.     ZHAO Heng-kai ZHENG Guo-xin ZHANG Qing-fangCHEN ZhiqiangGaussian beamed millimeter wave propagation characteristics due to reflecting behavior in circle tunnelJ Shanghai Univ(Engl Ed)201014(1)24-28

46.     Jia Dongli, Zheng Guoxin, Zhu Yazhou, Zhangli, Optimizing Polynomial Window Functions by Enhanced Differential Evolution, 2nd International Symposium Computer Science and Computational Technology (ISCSCT 2009), 2009.12

47.     Kaikai, Guoxin Zheng, et. al., The Reliability of CBTC System Based on IEEE 802.11 Technology, 2009 2nd IEEE WAVE, Dec., 2009: 44-47.

48.     Jia Dongli, Zheng Guoxin, Optimizing cosine window functions by differential evolution, Second International Symposium on Information Science and Engineering, ISISE2009,2009.12:611-614

49.     Tan Changqin Zhang Xin Zheng GuoxinA Method to Improve Reliability of CBTC Wireless Link, 2009 IET International Communication Conference on Wireless Mobile and Computing Proceeding, Shanghai, Dec., 7-9, 2009:9-12.

50.     Zhao Hengkai Zheng Guoxin, Ray Tracing Analysis of Gaussian Beamed Millimeter Wave Propagation in Circle Tunnel, 2009 IET International Communication Conference on Wireless Mobile and Computing Proceeding, Shanghai, Dec., 7-9, 2009: 164-167

51.     Tan Changqin Zheng Guoxin, Propagation in Tunnel in Case of WLAN Applied to Communications-Based Train Control System, 2009 IET International Communication Conference on Wireless Mobile and Computing Proceeding, Shanghai, Dec., 7-9, 2009: 393-396.

52.     Zhai Xuping Zheng Guoxinet al., One Integer Cycle Modulation Method and the Spectrum, 2009 IET International Communication Conference on Wireless Mobile and Computing Proceeding, Shanghai, Dec., 7-9, 2009: 280-282.

53.     Xuping Zhai; He Lin; Haigen He; Guoxin Zheng; Typical UNB modulation methods and their spectrums, Wireless Mobile and Computing (CCWMC 2009), IET International Communication Conference on , 2009: 283 – 286.

54.     Li Zhang; Guoxin Zheng, Adaptive Opportunistic Channel Access Strategy: A Tridimensional Traffic Model for Cognitive Radio Computer Science and Information Technology, 2008. ICCSIT '08. International Conference on Digital Object: 277 - 281

55.     Minghua Jia, Guoxin Zheng, Hui Wei, Fading Characteristics of Radio Propagation in One-way Semicircular Subway Tunnel at 38GHz, Proceeding of 2008 China-Japan Joint Microwave Conference,Sep., 2008:237-240.

56.     Minghua Jia, Wenli Ji, Guoxin Zheng, A New Model for Predicting the Characteristics of RF Propagation in Rectangular Tunnel, Proceeding of 2008 China-Japan Joint Microwave Conference,Sep., 2008: 268-270

57.     Hui Wei, Guoxin Zheng, Minghua Jia, The measurements and simulations of millimeter wave propagation at 38GHz in circular subway tunnels, Proceeding of 2008 China-Japan Joint Microwave Conference, Sept., 2008: 51-54.

58.     Ji Wenli, Zheng Guoxin, Bao Minqi. Ultra-Narrowband Wireless Communication Technology Based on QVMCK ModulationProceeding of 2008 China-Japan Joint Microwave Conference, Sept., 2008:185-187.

59.     Bao Minqi , Zheng Guoxin, Ji Wenli. BER Performance Analysis of Ultra-Narrowband Wireless Communication Technology Based on VMCK ModulationProceeding of 2008 China-Japan Joint Microwave Conference, Sep., 2008:193-196.

60.     M. Sun, Y.P. Zhang, Guoxin Zheng,. Modeling and measurement of the on-chip meander antenna pair, APMC 2005. Asia-Pacific Conference Proceedings Publication Date: 4-7 Dec. 2005

61.     Changyi Li, Guoxin Zheng, Improved Channel Estimation Using Noise Reduction for MB-OFDM UWB Systems, The IET international conference on wireless, mobile &networks ProceedingsHangzhou, Nov., 5-6, 2006: 513516.

62.     Wen Hu, Guoxin Zheng, “Orthogonal Hermite Pulses Used for UWB M-ary Communication”, in Proceedings of International Conference on Information Technology: Coding and Computing, 2005: 97-101.

63.     Li Changyi, Zheng Guoxin, Performance Analysis of Constellation Mapping and Channel Estimation in MB-OFDM UWB Systems, IEEE WiCOM 2006, Wuhan, Sep., 22-24, 2006

64.     Jinpeng Tian, Guoxin Zheng, Keqian Wang, Application of Wireless Sensor Network in Mine Monitoring SystemAudio Language and Image Processing (ICALIP), 2010 International Conference on, 2010: 263-268

65.     Xue-Xia Yang, Yi-Min Lu, Yu-Jie Xue, Guo-Xin Zheng, Analysis on the Monopole UWB Antenna of Double-Printed Circular Disc, Antennas and Propagation Society International Symposium 2006, IEEE , 2006: 1717-1720

 

 

1.  武艺鸣,郑国莘,张楠,采用MIMO信号双向入泄漏电缆的线性覆盖传输系统,2015ZL201510317441.9

2.  武艺鸣,郑国莘,张楠,信号双向入泄露电缆的轨道交通无线MIMO通信传输系统,2015ZL201510317481.3

3.  杨柳 郑国莘 倪平哲 丁青锋 尹晓宇 李亚斌 孙星,一种用于窄带信号的数字带通滤波器及滤波方法,2012ZL201210089898.5

4.  郑国莘,阮艳荣,开,金属封闭空间内装转动反射器构成的多径信道仿真器,2010ZL201010289590.6

5.  金丹峰, 郑国莘,叶娇,孙星,陆秦峰,丁青锋,隧道环境多径与多普勒效应信道仿真器及仿真方法,2012,ZL20121037936.3

6.  郑国莘,杨卫英,甚小线性调频键控调制的超窄带通信方法, ZL200710047472.2

7.  郑国莘,胡文,具有无源无线传输功能的电流互感器ZL200420114221.3

8.  贺辉,郑国莘,一种用于轨道通信的无线局域网越区快速切换方法,ZL200610029233

9.  郑国莘,贾明华,移动通信系统模拟测试方法及小尺度模拟测试平台, ZL200710041148.X

10. 郑国莘,杨卫英,每符号两比特的甚小线性调频键控的超窄带通信方法, ZL200810036376.2

11. 郑国莘,冯金振,基于扫频脉冲的超宽带无线通信调制方法,ZL200810033865.2

12. 张欣,郑国莘,卫慧,高介质带衰减小尺度矩形波导管20910052038.2

13. 卫慧,郑国莘,张欣,高介质带衰减小尺度圆形波导管200910052037.8

14. 张欣,郑国莘,双网冗余轨道交通车地视频传输系统,200910052053.7

15. 郑国莘,赵幸,姜俊超等,一种线性调频键控的超窄带广播通信调制方法,201010023085.7

16. 朱亚洲,郑国莘,向卫东,一种用于高速铁路环境下的MIMO系统中的无线通信方法,201110271727.x

17. 朱亚洲,郑国莘,肖艳,一种用于高速铁路环境下的MIMO系统中的自适应预编码方法,201110087301.9

18. 刘雅君,卢佳欣,郑国莘等,基于甚小线性调频键控调制的水声通信方法,201110190508.9

 

 

 

 

zgx

Professor Zheng Guoxin, Deputy Dean

Office

B317, Baoshan Campus, Shanghai University

Mail Address

99 Shangda Rd, Shanghai Dep. Communication Engineering, P.R. Chin

Zip Code

200444

Phone

13501636916

Email

gxzheng@staff.shu.edu.cn

中文版

URL

https://scie.shu.edu.cn/Prof/zgx.htm

Guoxin Zheng

Professor

Team leader of wireless communication

School of Communication and Information Engineering

Shanghai University

P. R. China

Tel. 86-21-56337204

Email: gxzheng@staff.shu.edu.cn

                                                  

Interesting area:

Confined space radio communications, Wireless communications in Metro system

 

Academic and Industrial Appointments:

October 2000 - Present

Professor in School of Communication and Information Engineering, Shanghai University, China.

 

June 2005 – August 2005

Tan Chin Tuan Exchange fellow in School of Electrical and Electronics Engineering, Nanyang Technological University, Singapore.

 

August 1999 – September 2000

Professor in the Institute of Confined Space Communications at Taiyuan University of Technology, China.

 

April 1995 – July 1999

Associate Professor in the Department of Electronic Engineering at Shanxi Mining Institute, Taiyuan University of Technology, China.

 

May 1995 – July 1995

Research Assistant in Microwave Laboratory at Chinese University of Hong Kong.

 

October 1991 – March 1995

Lecturer in the Department of Electronic Engineering at Shanxi Mining Institute, Taiyuan University of Technology, China.

 

January 1982 – August 1984

Assistant lecturer in Department of Electronic Engineering at Taiyuan Polytechnic Institute, Taiyuan University of Technology, China.

 

September 1984 – September 1991

Assistant lecturer in Department of Electronic Engineering at Shanxi Mining Institute, Taiyuan University of Technology, China.

 

October 1970 – March 1978

Taiyuan Hydraulic Pressure Plant

 

Education:        

M. Eng., Department of Electronic Engineering, Shanxi Mining Institute, Taiyuan University of Technology, 1987, China.

B. Eng., Department of Electronic Engineering, Taiyuan Polytechnic Institute, Taiyuan University of Technology, 1982, China.

 

Memberships:

Vice Committee Chair of Microwave Society of Shanghai Institute of Electronics

Senior Fellow of Institution of Engineering and Technology (IET)

 

Recent publications:

1.         Asad Saleem Min Wang Guoxin Zheng and Xiaoyu Yin, Spatial Characteristics of Wideband Channels Using Leaky Coaxial Cables in Tunnel Scenario, International Journal of Antennas and Propagation vol. 2019 Article ID 9374905 10 pages 2019.

2.         Zhicheng Ren Fangqi Zhang Guoxin Zheng Asad Saleem and Ke Guan, A 3D Non-Stationary Channel Model with Moving Mobile Station in Rectangular Tunnel, International Journal of Antennas and Propagation vol. 2019 Article ID 6750153 12 pages 2019

3.         Liu Xi Yin Xiaoyu Zheng Guoxin, Experimental Investigation of Millimeter-Wave MIMO Channel Characteristics in Tunnel, IEEE ACCESSDigital Object Identifier 10.1109/ACCESS.2019.293257.

4.         Ye JiangGuoxin Zheng, Xiaoyu Yin, Asad Saleem, Bo Ai, Performance Study of Millimeter-wave MIMO Channel in Subway Tunnel Using Directional Antennas, IET Microwaves, Antennas & Propagation, 2018.2.26.

5.         Xiaoyu Yin , Xi Liu, Guoxin Zheng , Asad Saleem, and Xuping Zhai, 28-GHz Channel Characterizationfor a Short Tunnel, IEEE Microwave and Wireless Components Letters, 2018.12.4.

6.         Pan, Yun-Tian, Zheng, Guo-Xin, Wang, Tao, Investigation of MIMO Channel Correlation and Capacity in Curved Subway Tunnel, IEEE Antennas and Wireless Propagation Letters (IF 1.79), 2016.01.01, 15: 1698~1702.

7.         Wu, Yiming, Zheng, Guoxin, Wang, Tao, Performance Analysis of MIMO Transmission Scheme Using Single Leaky Coaxial Cable, IEEE Antennas and Wireless Propagation Letters(IF 1.79), VOL. 16, 2017, 298-301.

8.         Wu, Yiming, Zheng, Guoxin, Saleem, Asad, Zhang, Yue Ping, An Experimental Study of MIMO Performance Using Leaky Coaxial Cables in a Tunnel, IEEE Antennas and Wireless Propagation Letters(IF 1.79), VOL. 16, 2017:1663-1666.

9.         Yun-Tian Pan, Guo-Xin Zheng, and Claude Oestges, Characterization of Polarized Radio Channel With Leaky Coaxial Cable in a Tunnel-Like Environment, IEEE Antennas and Wireless Propagation Letters(IF 1.79), VOL. 16, 2017:2803-2807.

10.     Dakui Wu, Guoxin Zheng, Compact Dual-Band Coupler for Vehicular Beam-Forming Array, International Journal of Antennas and Propagation(IF 1.16), 2017.1.18, 2017:1-6.

11.     LI Zhen, ZHU Xiang, JI Wenli, ZHENG Guoxin, The Real-Time, Simulation of Doppler Spread in Wireless Mobile Environment by RF Circuits, Chinese Journal of Electronics(IF0.51), 2015.10.01,244):837~843.

12.     Qingfeng DING, Guoxin Zheng, Liu YANG, The Novel Channel Estimation Algorithms for Rail Wireless Communication Relying on Prediction Theory, Journal of Computational Information Systems(IF1.3), 2013.01.01,923):9405~9412.

13.     Ding, Qing-Feng, Zheng, Guo-Xin, Yang, Liu, Cellular differential evolution combined opposition-based learning initialization with orthogonal crossover, Beijing Youdian Daxue Xuebao/Journal of Beijing University of Posts and Telecommunications,2014.01.01, 373):7~12.

14.     Ding Qing-Feng, Zheng Guo-Xin, Zuo Li-Xia, Wu Peng, Design of MVBC Frame Transceiver Based on VHDL Information Technology, Information Technology Journal (IF2.2)2013.12.01,1218):4362~4367.

15.     Liu Yang, Weidong Xiang and Guoxin Zheng, A Study on Vehicle Connectivity for VANETs Adopting Beamforming Antenna Array, Mathematical Problems in Engineering(IF0.8), Volume 2017, Article ID 6240984,1-6G. X. Zheng, J. H. Sheng, and Y. P. Zhang, Propagation of UHF Radio Waves in Trapezoidal Tunnels, Microwaves and Optical Letters, 1999, Vol., 20: 295-297.

16.     Li Zhang, Guoxin Zheng, Dongli Jia, “Spectrum Pooling-Based Vertical Handover for Heterogeneous Cognitive Radio Networks with QoS Constrains”, Journal of Convergence Information Technology, Vol., 5, No 5, July 31, 2010, PP 156-159

17.     Li Zhang, Guoxin Zheng, Dongli Jia, “Reliable Information Transmission: A Chaotic Sequence-Based Authentication Scheme for Radio Environment Maps Enabled Cognitive Radio Networks”, International Journal of Digital Content Technology and its Applications, Vol., 4, No 4, July 31, 2010, pp 48-57.

18.     Li Zhang, Guoxin Zheng. “Adaptive Opportunistic Channel Access Strategy: A Tridimensional Traffic Model for Cognitive Radio”, International Conference on Computer Science and Information Technology, 2008, pp.277-281.

19.     Li Zhang, Guoxin Zheng, “Adaptive QoS-aware channel access scheme for Cognitive Radio networks”, international Journal of Ad Hoc and Ubiquitous Computing

20.     G. X. Zheng, J. Z. Feng, M. H. Jia, Very Minimum Chirp Keying as a Novel Ultra Narrow Band Communication Scheme, IEEE ICICS2007, Singapore, Dec.,10-13, 2007, invited paper.

21.     G. X. Zheng, W. Y. Yang, et a1., Non DC Offset Very Minimum Chirp Keying Modulation as a Novel Ultra Narrow Band Communication Scheme, CCWMSN07 Proceeding, Shanghai, Dec., 12-14, 2007: 755-758.

22.     G. X. Zheng, W. Y. Yang, The Orthogonal Very Minimum Chirp Keying (OVMCK) Modulations with Very High Bandwidth Efficiency, 2008 IEEE International Symposium on Antenna and Propagation and USNC/URSI National Radio Science Meeting, San Diego, July, 5-12, 2008, appeared.

23.     J. Z. Feng, G. X. Zheng, Ultra-Wideband Wireless Communication System Based on Chirp -BOK-BPSK Modulation, Journal of Applied Sciences200826,(2: 123126.

24.     W. Hu, G. X. Zheng , Orthogonal Hermite Pulses Used for UWB M-ary Communication, in Proceedings of International Conference on Information Technology: Coding and Computing, ITCC, v 1, Proceedings ITCC 2005 - International Conference on Information Technology: Coding and Computing, 2005: 97-101.

25.     C. Y. Li, ,G. X. Zheng, Q. Ai, Channel estimation for OFDM based UWB wireless communications, in Proceedings of WSEAS Transactions on Circuits and Systems, v 4, n 11, November, 2005: 1765-1769.

26.     Z. Y. Gao, G. X. Zheng, Performance Analysis of UWB Time-Hopping Spread-Spectrum Communication System, Journal of Shanghai University (In Chinese) , Vol. 10, No. 3, June, 2004: 225-229.

27.     Z. Y. Gao, G. X. Zheng, Performance Analysis of TH-BPSK UWB Communication Systems using Different waveforms, in Proc. of 2003 Symposium on Communication Principle and Signal Processing, China: 764-769.

28.     Z. Y. Gao, G. X. Zheng, UWB Time-Hopping Spread-Spectrum Communication System using BPSK Modulation Scheme, in Proc. of 2003 Symposium on Microwaves and Millimeter-wave symposium of China: 856-860.

29.     H. Y. Zhang, G. X. Zheng, Narrow Band Interference Suppression In Ultra-Wide Band Systems, in Proc. of 2003 Symposium on Microwaves and Millimeter-wave symposium of China: 861-865.

30.     W. Fan, G. X. Zheng, Ultra-Wideband Pulse Shape And Spectrum Analysis, in Proc. of 2003 Symposium on Microwaves and Millimeter-wave symposium of China: 22-25.

31.     Y. P. Zhang, G. X. Zheng, J. H. Sheng, Radio Propagation at 900MHz in Coal Mines, IEEE Transactions on Antenna and Propagations, Vol., 49, No., 5, May, 2001:757-762.

32.     G. X. Zheng, Y. P. Zhang, et al, UTD prediction of radio wave propagation Characteristics in tunnel microcellular environment, Acta Electronics Sinica, Vol. 26, No. 12, Dec., 1998: 26-30.

33.     G. X. Zheng, J. H. Sheng, Y. P. Zhang,  Propagation of UHF radio waves in trapezoidal tunnels, Microwave and Optical Technology Letters, Vol. 20, No. 5, March, 1999:295-297.

34.     G. X. Zheng, Y. P. Zhang, et al, UHF Radio Propagation Characteristics in straight open-groove structure, Journal of Taiyuan University of Technology, Vol. 30, No. 1, Jan., 1999:1-5.

35.     G. X. Zheng, Y. J. Li, et al,  Application of Electromagnetic Compatibility Technology in design of microcomputer for mine monitoring and control, Journal of China Coal Societies, Vol. 23, No. 5, Oct., 1998: 535-539.

36.     G. X. Zheng, W. M. Zhang, Y. P. Zhang, J. H. Sheng, Theory of radio wave propagation in railway tunnel, Journal of Railway Engineering Society, Series No. 61, March, 1999: 92-97.

37.     Y. P. Zhang, Y. Hwang and G. X. Zheng, Gain-enhanced probe-fed microstrip patch antennas with very high permittivity, Microwave and Optical Technology Letters, Vol. 15, No. 2, June, 1997: 89-91.

38.     Y. P. Zhang, T. S. Ng., G. X. Zheng, et al, Radio propagation within coal mine longwall faces at 900MHz, Microwave and Optical Technology Letters, Vol. 18, No. 3, June, 1998: 184-187.

39.     Y. Hwang, Y. P. Zhang and G. X. Zheng, Planar inverted F antennas loaded with high permittivity material, Electronics Letters, Vol. 31, No. 20, Sept., 1997: 1710-1713.

 

Research Projects:

 

1.         Key technology of information security in intelligent running surveying system of railway transit, funded by Shanghai Administration, 2015-2017, (270000CHY).   

2.         Microwave and Millimeterwave radio propagation modeling in tunnels and real time channel emulation theory, funded by National Natural Science Foundation of China, 2012-2015, (650,000 CHY).

3.         Channel modeling in metro tunnels and its application, 2012-2015, funded by Key Project of National Natural Science Foundation of China, 2012-2016, (2,900,000 CHY).

4.         Field strength measurement for Meglev system, funded by National Eleven Five Plan Supporting project, 20092010,(1,200,000 CHY)

5.         Very Minimum Chirp Keying with High Transmission Rate as Ultra Narrow Band Radio Communication Scheme,

6.         Test Bed for Wireless Communication System in Metro, funded by National Science and Technology Bureau, 2010-2011, (300,000 CHY).

7.         The First China-made Equip of Wireless Communication Based Train Control System, funded by Shanghai Economy Administration Project 2008-2009, (15,000,000 CHY).

8.         Propagation Characteristics of Millimeter Waves in Tunnels, funded by National Eleventh Five- Year Supporting Plan, 2009-2010, (1,200,000 CHY).

9.         Key Technology of Ultra-Wide Band Radio Communications, funded by Shanghai Municipality International Collaboration Project between Shanghai University of China and Nanyang Technical University of Singapore, 2005-2007, (200000 CHY) .

10.     Propagation of Millimeter Waves in Confined Spaces, funded by the 863 National Key Foundation of China, 2005-2006.

11.     Interoperability of TETRA Systems in Shanghai Metro, funded by Shanghai Municipality, 2004-2006, (400000 CHY).

12.     Interoperability of TETRA Systems in Shanghai Metro, funded (400000 CHY) by Shanghai Municipality, 2004-2006.

13.     Narrow Band Interference Suppression in Ultra-Wide Band Systems, funded by Shanghai Key Disciplinary Development Programs, 2003.

14.     Technical specification for trunked mobile radio system of urban rail transit, funded (280000 CHY) by Shanghai City Construction Bureau, 2003.

15.     Trunked mobile radio system of urban rail transit, funded by Shanghai City Construction Bureau and Shentong Co. Ltd., 2002(100000 CHY).

16.     Personal Communication System in Working Face and Gate Entries in Mines, funded by the National Natural Science Foundation of China, 1999-2002(300000 CHY).

17.     Applications of Blue-tooth Technology, funded by the Key Project of Ten Five Key Program of Shanghai, 2001-2002 (900000 CHY).

18.     Excitation and propagation of UHF radio waves in confined spaces funded by the National Natural Science Foundation of China, 1996-1999 (140000 CHY).

19.     A low cast personal radio communications for underground mines funded by the National nine-five Key Program, The Ministry of Coal Industry, 1996-1999(50000 CHY).

20.     Coal shearer power supply control using RF link technique funded by the Ministry of Coal Industry, 1996-1999 (45000 CHY).

21.     Characteristics of radio propagation channel in long-wall mining faces, funded by the Government of Shanxi Province, 1998-1999 (45000 CHY).

 

Honors:

Dedicated measurement technology and its applications for metro and high speed train wireless communications, The third class of Shanghai Science and Technology Award, 2014.

 

Key technology of wireless communications in metro systems, The third class of Shanghai Science and Technology Award, 2010.

 

Test bed for wireless communications in metro systems, The first class of University exhibition award, 2010 China International Industry Fair, Shanghai.

 

Outstanding Teacher of BAOGANG award, 2008.

 

Characteristics of UHF radio propagation in mining tunnels, The second class of Shanxi Province Science and Technology Award, 2000.

 

Outstanding Yong Scientist Award from Shanxi Provincial Government,1996.

 

Outstanding Scientist and Technician of Shanxi Coal Administration Bureau, 1995.

 

Outstanding Teacher of Shanxi Institute of Mining and Technology, 1994.