陈振兴

发布人:发表时间:2017-03-03点击:

陈振兴Zhenxing Chen博士、副教授、硕士生导师。主讲《通信原理》宽带无线通信》等课程。研究领域主要无线通信、数字信号处理和电子对抗,主攻方向包括面向下一代无线通信的正交频分复用(OFDM)、多输入多输出(MIMO)、雷达信号处理、高维信号处理、索引调制、信道编/译码、通信系统建模/仿真/实现等技术。现主持或参与的国内外科研/教学项目20多项,发表国内外期刊及会议论文30多篇,授权或申请的国家发明专利、实用新型和软件著作权等30多项。

 

联系方式chenzx@cug.edu.cn

 



教育工作经历

20133至今,威尼斯欢乐娱人城3328,机械与电子信息学院,电子信息工程系

20129—20132月,国立庆尚大学(韩国),工学研究院

20089—20128月,国立庆尚大学(韩国),信息设备工程,工学博士

20069—20088月,国立庆尚大学(韩国),信息设备工程,工学硕士

 

科研项目

1国家自然科学基金(青年),基于多维信号星座图的高质量数字传输系统研究主持

2国家自然科学基金(面上),基于传感器网络的水环境监测及其时空场重建方法研究,参与

3湖北省自然科学基金(面上)基于多维信号索引调制的OFDM系统研究,主持

4教育部科技项目(留学回国人员科研启动基金)降低三维正交频分复用系统峰均功率比的研究主持

5中央高校专项项目(优秀青年基金),基于高维信号映射与解映射的数字光通信系统研究主持

6中央高校专项项目(新青年启动基金)探地雷达信号处理方法的研究参与

7中央高校专项项目(杰出人才培育基金),海外优秀博士博士后项目,主持

8横向项目,智能点胶机器人研发项目,主持

9横向项目,目标提取实时处理软件,参与

10横向项目,客轮人员位置感知节点及网络性能测试与数据分析处理参与

11横向项目,PYTHON500高速图像采集系统研发,参与

12横向项目,基于大数据的用户通信行为分析,参与

13韩国电子通信研究院项目,A Research on the WiMedia UWB Transmission Scheme for Gbps Transmission参与

14韩国电子通信研究院项目,A Research on Standard Technology for High-Quality Video Streaming based on WiMedia,参与

15韩国电子通信研究院项目,A Research on the Performance of Gbps Transmission for WiMedia UWB,参与

16韩国电子通信研究院项目,A Research on the Highly Efficient Modulation Schemes for Improvement of the Quality of Services参与

17韩国知识经济部项目,Development of Embedded Software for Multicore-Based Avionics,参与

18韩国知识经济部项目,Development of Wireless Communication Technology Based on the Sensor Networks on Vessels参与

19韩国教育科学技术部项目A Study on the Coded Modulation Based on OFDM with 3-Dimensional Constellations参与

20韩国教育科学技术部项目,A Study on Modification of α-Stable Distribution for Practical Impulsive Noise Environment and Its Applications参与

 

教学项目

1、校级教学改革项目,《通信原理》课程教学方法的改革与实践,主持

2、国家级产学合作协同育人项目,基于通信原理课程群软件无线电师资培训,主持

3、国家级产学合作协同育人项目,车联网软件通用平台开发,参与

 

学术论文

1Mengyi Wang, Zhihui Chen, and Zhenxing Chen*, “Dual-Mode index modulation aided 3D-OFDM,” IEEE Communications letters, vol. 26, no. 3, pp. 612-616, Mar. 2022.

2Mengyi Wang, Zhihui Chen, and Zhenxing Chen*, “Energy-Efficient index modulation with in-phase/quadrature format in the generalized fading channel,” IEEE Access, vol. 9, pp. 117938-117948, Aug. 2021.

3Tianye Huang, Xueyan Dang, Lei Han, Gangshun Zhang, Jianxing Pan, Yuhan Wang, and Zhenxing Chen*, “Dual-channel sensor based on Tamm plasmon polariton and defect mode hybridization in topological insulator covered photonic crystals,” Journal of the Optical Society of America B, vol. 38, no. 6, pp. 1951-1957, June 2021.

4Zhenxing Chen, Yi Lu, and Seog Geun Kang, “High-dimensional OFDM with in-phase/quadrature index modulation,” IEEE Access, vol. 9, pp. 44198-44206, Mar. 2021.

5、王孟依,陈振兴*,陈智慧,基于三级LLR检测的广义零填充三模OFDM索引调制系统研究,电子学报,49(7)1291-12972021.

6Xufan Zhang, Yong Wang, Zhenxing Chen, Jun Yan, and Dianhong Wang, “Saliency detection via image sparse representation and color features combination,” Multimedia Tools and Applications, vol. 79, no. 31-32, pp. 23147-23159, Aug. 2020. 

7Xufan Zhang, Yong Wang, Jun Yan, Zhenxing Chen, and Dianhong Wang, “A unified saliency detection framework for visible and infrared images,” Multimedia Tools and Applications, vol. 79, no. 25-26, pp. 17331-17348, July 2020. 

8Jianxing Pan, Zhenxing Chen, Tianye Huang, Shuwen Zeng, Zhuo Cheng, Pan, Huang, Xiang Zhao, Perry Ping Shum, and Gilberto Brambilla, “Simultaneous mid-infrared gas sensing and upconversion based on third harmonic generation in cascaded waveguides,” IEEE Photonics Journal, vol. 12, no. 2, pp. 1-12, April 2020.

9Guizhen Xu, Jun Yan, Zhenxing Chen, Tianye Huang, Zhuo Cheng, Perry Ping Shum, and Gilberto Brambilla, “Design of germanium-silicon carbide hybrid waveguides for mid-infrared third-order parametric conversion,” Optics Communications, vol. 456, pp. 1-5, Feb. 2020.

10Lei Han, Zhenxing Chen, Tianye Huang, Huafeng Ding, and Chuan Wu, “Sensitivity enhancement of Ag-ITO-TMDCs-Graphene Nanostructure based on surface plasmon resonance biosensors,” Plasmonics, (2020)15:693-701.

11Yuan Xie, Zhenxing. Chen, Jun. Yan, Yiheng. Wu, Tianye. Huang, and Zhuo. Cheng, “Combination of surface plasmon polaritons and subwavelength grating for polarization beam splitting,” Plasmonics, (2020)15:235-241.

12、张祥莉,王勇,王典洪,陈振兴*四维信号星座图改进及相应OFDM系统模型设计 电子学报,48(8)1486-14922020.

13Yuan Xie, Zhenxing Chen, Yiheng Wu, Yangcheng Zhao, Tianye Huang, and Zhuo Cheng, “Bloch supermode interaction for high-performance polarization bean splitting,” Optical Engineering, vol. 58, no. 9, pp. 095102.1-5, Sep. 2019.

14Zhenxing Chen, Jiaheng Liu, Shuang Li, and Seog Geun Kang, “New 3D 16-ary signal constellations and their symbol error probabilities in AWGN and Rayleigh fading channels,” Wireless Communications and Mobile Computing, Volume 2018, Article ID 7178631, 6 pages, 2018.

15Shuang Li, Shicheng Zhang, Zhenxing Chen, and Seog Geun Kang, “A hybrid decoding of Reed-Muller codes,” International Journal of Distributed Sensor Networks, vol. 13, no. 2, 8 pages, 2017.

16、薛伟,童蓬,陈振兴一种新的LTE系统频偏估计算法,测控技术,第34卷,第4期,124-127, 2015.

17Zhenxing Chen and Seog Geun Kang, “A Three-Dimensional OFDM System with PAPR Reduction Method for Wireless Sensor Networks,” International Journal of Distributed Sensor Networks, Volume 2014, Article ID 312308, 6 pages, 2014.

18、薛伟,陈振兴“LET系统中速度估计新算法,计算机仿真,第31卷,第10期,2014.

19Seog Geun Kang, Zhenxing Chen, Ju Yeong Kim, Jin Sub Bae, and Jong-Soo Lim, “Construction of higher-level 3-D signal constellations and their accurate symbol error probabilities in AWGN,” IEEE Transactions on Signal Processing, vol. 59, no. 12, pp. 6267-6272, Dec. 2011.

20Zhenxing Chen and Seog Geun Kang, “Three-dimensional modulation formats with constant power for optical communications,” Optics Express, vol. 19, no. 23, pp. 22358-22363, Nov. 2011. 

21Zhenxing Chen, Eun Chang Choi, and Seog Geun Kang, “Closed-form expressions for the symbol error probability of 3-D OFDM,” IEEE Communications letters, vol. 14, no. 2, pp. 112-114, Feb. 2010. 

22Zhenxing Chen, Chae Cheol Choe, and Seog Geun Kang, “Performance of typical 3-D signal constellations in Rayleigh fading channel,” Journal of Broadcast Engineering (Korea), vol. 16, no. 4, pp. 680-683, July 2011. 

23Zhenxing Chen and Seog Geun Kang, “A voice coding technique for application to the IEEE 802.15.4 standard,” Journal of Broadcast Engineering (Korea), vol. 13, no. 5, pp. 612-621, Sep. 2008.

24Xiangyang Dai, Wei Xue, Yan Luo, and Zhenxing Chen, “A new velocity estimation method for ground penetrating radar,” 第十三届中国国际地球电磁学术研讨会,武汉,湖北,2017.

25Shuang Ma, Zhenxing Chen, and Seog Geun Kang, “Performance analysis of 3-D data transmission system in the presence of impulsive noise,” 2012 International Conference on Information and Communication Technology Convergence (ICTC), pp. 601-602, Jeju, Korea, Oct. 2012.

26Zhenxing Chen and Seog Geun Kang, “An FPGA implementation of 3-D signal transmission system,” 2012 IEEE International Conference on Consumer Electronics (ICCE), pp. 368-369, Las Vegas, Jan. 2012.

27Zhenxing Chen, Jin Sub Bae, Se-Kyo Chung, Jin-Whan Koh, and Seog Geun Kang, “Multi-envelope 3-dimensional constellations for polarization shift keying modulation,” 2010 International Conference on Information and Communication Technology Convergence (ICTC), pp. 173-174, Jeju, Korea, Nov. 2010.

28Zhenxing chen and Seog Geun Kang, “Probability of symbol error of OFDM system with 3-Dimensional signal constellations,” IEEE 13th International Symposium on Consumer Electronics, ISCE’09, pp. 442-446, Kyoto, Japan, May 2009.

29Zhenxing Chen, Seog Geun Kang, Eun Chang Choi, and Jae Doo Huh, “Multistage waveform coding for voice communication over Zigbee networks,” Digest of Technical Papers International Conference on Consumer Electronics, ICCE’09, pp. 1-2, Las Vegas, USA, Jan. 2009.

30Chae Cheol Choe, Zhenxing Chen, and Seog Geun Kang, “Design of a new 3-D 16-ary signal constellation with constant envelope,” Next Generation Communication Software (NCS), 2010, Korea.

31Zhenxing Chen, Zijing Zhang, Jin Sub Bae, Seog Geun Kang, Eun Chang Choi, and Jae Doo Huh, “Non-constant envelop 3-dimensional signal constellations for digital communication,” Next Generation Communication Software (NCS), 2008, Korea.

32Zhenxing Chen, Eun Chang Choi, Jae Doo Huh, and Seog Geun Kang, “Performance of a multi-stage DWT for transmission of audio signals over low-rate WPANs,” Korea Signal Processing Conference (KSPC), 2007, Korea.

 

教学论文

1陈振兴,黄田野,“引导教学在通信原理课程中的应用探讨”,教育教学论坛,第37期,页码:105-10820219.

2陈振兴 殷蔚明,“基于通信原理课程的多维度本科教学探索实践,” 教育教学论坛,第46期,页码:241-242201711.

 

明专利授权

1陈振兴,陆奕,黄田野,王勇,程卓,“一种基于多维度信号索引调制的正交频分复用方法及系统”,专利号:ZL202011248093.1

2陈振兴,张煜蓉,张惠捷,王勇,王家豪,“基于两阶段索引调制的OFDM峰均功率比降低方法和系统”,专利号:ZL201910613902.5 

3陈振兴,张煜蓉,张惠捷,殷蔚明,程卓,“基于两阶段索引调制的OFDM实现方法和系统”,专利号:ZL201910613750.9 

4陈振兴,张煜蓉,李芳,王典洪,王勇,罗林波,“基于三维信号插入降低OFDM系统峰均功率比的方法及系统”,专利号:ZL201711106288.0 

5陈振兴,张煜蓉,李芳,王典洪,王勇,罗林波,“基于四维信号插入降低OFDM系统峰均功率比的方法及系统”,专利号:ZL201711106287.6 

6陈振兴,薛伟,程卓,罗林波,张祥莉,“一种基于16进制三维格子星座图映射的数字通信系统”,专利号:ZL201710194502.6 

 

实用新型授权

1陈振兴,刘嘉珩,黄田野,罗林波,李哲丰,“三维相干光正交频分复用系统峰均功率比降低装置”,专利号:ZL201720316020.9

2陈振兴,薛伟,程卓,罗林波,王家豪,“一种提高三维相干光正交频分复用频带利用率系统”,专利号:ZL201720312473.4 

 

软件著作权

1陈振兴,刘嘉珩,基于虚拟序列插入降低三维OFDM系统PAPR软件V1.0,登记号2019SR0883481

2陈振兴,张煜蓉,基于四维信号插入技术降低OFDM系统峰均功率比软件V1.0”,登记号2019SR0883468 3、张煜蓉,陈振兴基于三维信号插入技术降低OFDM系统峰均功率比软件V1.0”,登记号2019SR0883474

4、田清瑶,陈振兴基于高维信号索引调制的正交频分复用软件V1.0”,登记号2021SR1657250

5、 吴云涛,陈振兴基于MIMO的四维索引调制正交频分复用系统软件V1.0”,登记号2021SR1657249 

 

获奖

1、校级优秀本科毕业论文

2先进毕业班071175

3湖北省大学生电子设计竞赛

4、中国工程机器人大赛

5全国/湖北省大学生移动通信5G技术大赛