Curriculum Vitae
Jingwei Yin
Dean
College of Underwater Acoustic Engineering
Harbin Engineering University
Harbin, China
Tel: (+86)13674664846
(+86)0451-82518452
Fax: (+86)0451-87723870
Email: yinjingwei@hrbeu.edu.cn
EDUCATION
Ph.D. | College of Underwater Acoustic Engineering Harbin Engineering University, China Field: Acoustic Communication | 2004-2007 |
M.S. | College of Underwater Acoustic Engineering Harbin Engineering University, China Field: Underwater Acoustic Signal Processing | 2003-2006 |
B.S. | College of Underwater Acoustic Engineering Harbin Engineering University, China Field: Underwater Acoustics | 1999-2003 |
PROFESSIONAL EXPERIENCE
Harbin Engineering University
Harbin, China- Dean, College of Underwater Acoustic Engineering
- Director, National Experimental Teaching Center of Underwater Acoustic Engineering
- Professor, College of Underwater Acoustic Engineering
- Associate Dean, College of Underwater Acoustic Engineering
- Post Doctorate, School of Marine Engineering
- Associate Professor, College of Underwater Acoustic Engineering
- Lecturer, College of Underwater Acoustic Engineering
| 6/2016-Present 6/2016-Present 7/2012-Present 12/2014 – 6/2016 6/2009 – 6/2011 8/2008 – 7/2012 6/2006 – 8/2008 |
RESEARCH AREAS
- Underwater acoustic communication
- Vector signal processing
- Time reversal mirror in the ocean
RESEARCH GRANTS AND PROJECTS
Principal Investigator- Study on underwater acoustic channel characteristics and underwater acoustic communication technology
- Study on the acoustic characteristics of ice
- Study on acoustic communication technology of the parametric array difference Pattern delay coding
- Study on acoustic high frequency detection and communication system
- Study on the environmental adaptive underwater acoustic communication technology based on multi-mode communication system
- Research on underwater spatial division multiple access based on a single vector hydrophone active intensity estimator and time reversal mirror
- Research on multiple access communication technology in underwater Ad Hoc Network
- Research on mobile underwater telecommunication based on differential spread spectrum technology in deep ocean
- Research on mobile underwater acoustic communication based on the differential modulation
- Study on anti-heavy Doppler and multipath for mobile underwater acoustic communication
LIST OF COURSES TAUGHT
- Information Theory (Undergraduate level, Harbin Engineering Univ.)
- Approaching Ocean Research (Undergraduate level, Harbin Engineering Univ.)
- Signal Processing in Underwater Acoustic Communication (Master, Harbin Engineering Univ.)
- Underwater Acoustic Networks (Master level, Harbin Engineering Univ.)
BOOK CHAPTERS
- Yin Jingwei, “Theory and Signal Processing on Underwater Acoustic Communication”, Defense Industry Press. 2011
PUBLICATIONS
[1] Yin Jing-wei†, Yang Guang, Huang Defeng, Jin Lu, Guo Qinghua. Blind adaptive multi-user detection for under-ice acoustic communications with mobile interfering users. Journal of the Acoustical Society of America, 2017, 141(1): EL70-EL75
[2] Yang Guang, Yin Jing-wei†, Huang De-feng, Jin Lu. A Kalman Filter Based Blind Adaptive Multi-User Detection Algorithm for Underwater Acoustic Networks. IEEE Sensors Journal, 2016, 16(11), 4023-4033 (SCI:000375563700005)
[3] Yang Guang, Yin Jing-wei†, Yu Yun, Shi Zhen-hua. Depth classification and placing depth forecasting equations of the underwater target based on complex acoustic intensity of normal modes. Journal of Ocean University of China. 2016, 15(2), 241-246 (SCI: 000376023500006)
[4] Yin Jing-We†, Du Peng-Yu, Zhang Xiao, Zhu Guang-Ping. Direct-sequence Spread-spectrum Underwater Acoustic Communication Based on Single Vector Differential Energy Detector. Acta Physica Sinica, 2016,65(4):044302-1-8 (SCI:000371401000022)
[5] Du Peng-Yu, Yin Jing-Wei†, Zhou Huan-Ling, Guo Long-Xia. Cyclic Shift keying Spread Spectrum Underwater Acoustic Communication Using Time Reversal Energy Detector. Acta Physica Sinica, 2016,65(1): 014302-1-8 (SCI: 000370940200024)
[6] Yin Jingwei, Du Pengyu, Yang Guang, Zhou Huanling. Space-Division Multiple Access for CDMA Multiuser Underwater Acoustic Communications. Journal of Systems Engineering and Electronics. 2015, 26(6): 1184-1190 (SCI: 000368555600007)
[7] Wang Chi, Yin Jingwei†, Huang Defeng, Zielinski Adam. Experimental demonstration of differential OFDM underwater acoustic communication with acoustic vector sensor. Applied Acoustics, 2015, 91(1): 1-5 (SCI: 000351322600001; EI: 20145100337491)
[8] Han Xiao, Yin Jingwei†, Yu Ge, Du Peng-yu. Experimental demonstration of single carrier underwater acoustic communication using a vector sensor. Applied Acoustics, 2015, 98(5): 1-5 (SCI: 000358097100001; EI:20151900830112)
[9] Han Xiao, Yin Jingwei†, Du Pengyu, Zhang Xiao. Experimental demonstration of underwater acoustic communication using bionic signals. Applied Acoustic, 2014, 78(4): 7-10. (SCI)
[10] Han Xiao, Yin Jingwei†, Guo Long-Xiang, Zhang Xiao. Research on bionic underwater acoustic communication technology based on differential Pattern time delay shift coding and dolphin whistles. Acta Physica Sinica, 2013, 62(22): 224301-1-6. (SCI) (in Chinese)
[11] Yin Jingwei, Wang Chi, Pan Zhengrong, Zhang Yuheng. Research on MDAPSK for the OFDM based underwater communication. Journal of Huazhong University of Science and Technology (Nature Science), 2013,41(3):1-5. (in Chinese)
[12]Yin Jingwei, Wang Chi, Wang Yu, Shen Jianwen. Application of OFDM in cognitive underwater communication. Technical Acoustics, 2012,31(6):615-618. (in Chinese)
[13]Yin Jingwei, Yang Sen, Du Pengyu, Yu Yun, Chen Yang. Code divided multiple access underwater acoustic communication based on active acoustic intensity average. Acta Phys. Sin., 2012,61(6):064302-1-7 (SCI:000303174000048) (in Chinese)
[14]Yin Jing-wei, Zhang Xiao, Sheng Xue-li, Sun Chao. Research on differential Pattern time delay shift coding underwater acoustic communication. Journal on Communications, 2012, 33(6): 112-117 (EI: 20123215324267) (in Chinese)
[15] Yin Jingwei, Zhang Xiao, Sun Liqiang, Mei Jidan. An application of the differential spread-spectrum technique in mobile underwater acoustic communication. SCIENCE CHINA Information Sciences, 2011, 54(10): 2190-2198(SCI: 000297023300018)
[16] Yin Jing Wei, Wang Yi Lin, Wang Lei, Hui Jun Ying. Multiuser Underwater Acoustic Communication Using Single-element Virtual Time Reversal Mirror. Chinese Science Bulletin, 2009, 54(8): 1302-1310 (SCI: 000265019200004)
[17] Yin Jingwei, Zhang Xiao, Sun Liqiang, Mei Jidan. An application of the differential spread-spectrum technique in mobile underwater acoustic communication, China Science: Information Science, 2012, 42(4):436-445(in Chinese)
[18] Yin Jingwei, Zhang Xiao, Zhao Anbang, Sheng Xueli. The application of a virtual time reversal mirror to upstream communication of underwater acoustic networks, Journal of Harbin Engineering University, 2011,32(1) :1-6 (in Chinese)
[19] Yin Jingwei, Wang Lei, Zhang Xiao. The application of parallel combinatory spread spectrum in underwater acoustic communication, Journal of Harbin Engineering University, 2010,31(7):958-962 (in Chinese)
[20] Yin Jingwei, Wang Yilin, Sun Liqiang. Time reversal mirror-based underwater acoustic communication scheme, Journal of Huazhong University of Science and Technology(Nature Science Edition), 2009,37(9):16-20 (in Chinese)
[21] Yin Jingwei, Hui Junying, Guo Longxiang. Study on point-to-point mobile underwater acoustic communication. Acta Physica Sinica. 2008, 57(3): 1753-1758 (in Chinese)
[22] Yin Jingwei, Hui Junying, Wang Yilin, Hui Juan. M-ary chaotic spread spectrum Pattern time delay shift coding scheme for multichannel underwater acoustic communication. Acta Physica Sinica. 2007, 56(10): 5915-5921 (in Chinese)
[23] Yin Jingwei, Hui Junying, Hui Juan, Yao Zhixiang, Wang Yilin. Underwater Acoustic Communication Based on Pattern Time Delay Shift Coding System. China Ocean Engineering. 2006, 20(3): 499-508 (in Chinese)
[24] Yin Jingwei, Hui Junying, Cai Ping, Guo Longxiang. Application of Fractional Fourier Transform in Long Range Deep-Water Acoustic Communication. Acta Electronica Sinica, 2007, 35(8): 1499-1504 (in Chinese)
[25] Yin Jingwei, Hui Juan, Hui Junying, Sheng Xueli, Yao Zhixiang. Application of passive time reversal mirror in underwater acoustic communication. Acta Acustica, 2007, 32(4): 362-368 (in Chinese)
[26] Yin Jingwei, Hui Junying, Cai Ping, Wang Yilin. Underwater acoustic channel parameter estimation based on fractional Fourier transforms. Systems Engineering and Electronics, 2007, 29(10): 1624-1627 (in Chinese)
[27] Yin Jingwei, Hui Junying. Classified Study on Time Reverse Mirror in Underwater Acoustic Communication. Journal of System Simulation, 2008, 20(9): 2449-2453 (in Chinese)
[28] Yin Jingwei, Zhang Xiao, Mei JidanYang Sen. An analysis on fractional Fourier transform in Doppler and multipath mobile underwater acoustic channel. 161st Meeting of the Acoustical Society of America, Seattle, J. Acoust. Soc. Am, 2011, 129(4): 2667
[29] Yin Jingwei, Hui Junying. A long range deep-water acoustic communication scheme based on MSS-PDS and channel equalization by single sensor PTRM. Chinese High Technology Letters, 2008, 18(4): 382-386 (in Chinese)
[30] Yin Jingwei, Hui Junying, Wangyan, Liu Yang. Virtual Time Reversed Pattern Time Delay Shift Coding Scheme for Underwater Acoustic Communication. Journal of System Simulation, 2007, 19(17), 4033-4036 (in Chinese)
[31] Yin Jingwei, Hui Junying, Wei Zhiheng, Yao Zhixiang. Four channel underwater acoustic communication based on PDS system. Technical Acoustics, 2006, 25(1): 10-15 (in Chinese)
[32] Yin Jingwei, Yang Sen, Yao Dandan, Zhang Xiao. Study of underwater acoustic communication based on vector pattern time delay shift coding. MTS/IEEE Seattle, OCEANS 2010: 1-6
[33] Yin Jingwei, Wang Lei, Chen Kai. Underwater acoustic wireless multiuser communication. 5th International Conference on Wireless and Optical Communications Networks (WOCN/IEEE), 2008: 123-126
[34] Yin Jingwei, Hui Junying, Guo Longxiang, Ma Jingguang. Channel equalization using passive time reversal mirror in underwater acoustic communication. 10th International Conference on Communication Technology Proceeding (ICCT/ IEEE), 2006: 692-695
[35] Yin Jingwei, Wang Lei, Zhang Xiao. Underwater acoustic communication based on grouping M-ary spread spectrum. The 5th International Symposium on Acoustic Engineering and Technology, Harbin, Aug. 2010: 1-4
[36] Yin Jingwei, Hui Junying, Yao Zhixiang, Wang Yilin. Study on Pattern Time Delay Shift Coding Scheme. Journal of Marine Science and Application. 2006, 5(3): 51-56
[37] Yin Jingwei, Hui Junying. Study on A New Channel Equalization-Virtual Time Reversal Mirror. The 4th International Symposium on Acoustic Engineering and Technology, Oct. 2005: 112-115
[38] Yin Jingwei, Wei Zhiheng, Hui Junying, Yao Zhixiang. Study of 4-channel underwater acoustic communication based on pattern time delay shift coding system. Applied Acoustics, 2006, 25(3): 180-186 (in Chinese)
[39] Han Xiao, Yin Jingwei, Du Pengyu, Guo Xiaoyu. The application of differential spread spectrum technology in underwater acoustic communication. 164th Meeting Acoustical Society of America, Kansas, J. Acoust. Soc. Am., 132(3), 2015P, Kansas, 2012.09.23-27
[40] Wang Chi, Yin Jingwei, Du Pengyu, Guo Longxiang. Application of orthogonal frequency division multiplexing in cognitive underwater communication. 164th Meeting Acoustical Society of America, J. Acoust. Soc. Am., 132(3), 2015P, Kansas, 2012.09.23-27
[41] Wang Yu, Yin Jingwei, Zhao Anbang, Chen Yang. The research on space division multiple access in underwater self-organized network. International Conference on Computers, Communications, Control and Automation (CCCA/IEEE), HongKong, 2011, 2: 570-573
[42] Zhang Xiao, Yin Jingwei, Yu Yun, Yin Lu. Mobile Underwater Acoustic Communication Based on Differential Pattern Time Delay Shift Coding. International Conference on Computers, Communications, Control and Automation (CCCA/IEEE), HongKong, 2011, 2: 566-569
[43] Yang Sen, Yin Jingwei, Zhang Xiao. Study on Difference Spread Spectrum Multi-user Communication Based on Vector Sensor. Asia-Pacific Conference on Information Technology and Ocean Engineering, Macao, 2011, 3: 186-180
[44] Ma Jingguang, Yin Jingwei. Application of virtual time reversal mirror in underwater passive ranging. Applied Acoustics, 2007, 26(3): 135-142 (in Chinese)
[45] Yu Yun, Hui Junying, Yin Jingwei, Hui Juan, Wang Zijuan. Moving target parameter estimation and passive ranging based on waveguide invariant theory. Acta Acustica, 2011, 36(3): 258-264 (in Chinese)
[46] Hui Junying, Wang Lei, Yin Jingwei. Grouping M-ary spread spectrum with Pattern time delay shift coding used in underwater acoustic communication. Journal of Huazhong University of Science and Technology(Nature Science Edition), 2008, 36(7): 30-33 (in Chinese)
[47] Yao Zhixiang, Hui Junying, Yin Jingwei, Yang Juan. Four approaches to DOA estimation based on a single vector hydrophone. The Ocean Engineering, 2006, 25(1): 122-127 (in Chinese)
[48] Hui Junying, Wang Dayu, Zhang Guangpu, Yin Jingwei, Wang Xiaolin. Research on Underwater Multiple Access Based on Acoustic Shielding, Acta Armamentarii, 2010, 31(6): 703-709 (in Chinese)
[49] Ma Jingguang, Shan Zhongwei, Yin Jingwei, Li Feng, Wang Nan. Passive localization technology of time reversal with multi-sensor array. Applied Acoustics, 2007, 26(11): 282-286 (in Chinese)
[50] Yao Zhixiang, Hui Junping, Caiping,Yin Jingwei. A histogram approach of the azimuth angle estimation using a single vector hydrophone. Applied Acoustics, 2006, 25(3): 161-167 (in Chinese)
[51] Lin Yuxiang, Liang Guolong, Zhang Guangpu, Fujin, Yin Jingwei. Simulation of high-order modulation LDPC code in underwater acoustic channel. Journal of Harbin Institute of Technology, 2010, 42(9): 1472-1475 (in Chinese)
[52] Hui Junying, Ma Jingguang, Li Feng, Yin Jingwei, Sheng Xueli. Passive localization technology using time reversal with a two-sensor array. Journal of Harbin Engineering University, 2007, 28(11): 1247-1251 (in Chinese)
PATENTS
[1] Yin Jingwei, Hui Junying, Wang Yilin, Guo Longxiang. Deep-sea Remote Underwater Acoustic Communication Method [P]. Heilongjiang: CN101166065,2008-04-23.
[2] Yin Jingwei,Hui Junying. A Mobile Acoustic Communication Method [P]. Heilongjiang: CN101166066,2008-04-23.
[3] Yin Jingwei,Hui Junying, Guo Longxiang, Wang Yilin. Measurement Method of Underwater Acoustic Channel Parameters and Simultaneous Acquisition of Moving Underwater Acoustic Communication [P]. Heilongjiang: CN101094217,2007-12-26.
[4] Yin Jingwei, Cai Ping Zhao Anbang. A method of Two-way Underwater Acoustic Communication Between Mother Ship and Underwater User [P]. Heilongjiang: CN101610117, 2009-12-23.
[5] Yin Jingwei, Yang Sen, Yu Yun, Chen Yang, Du Pengyu. Single Vector Active Average Sound Finder [P]. Heilongjiang: CN102353937A,2012-02-15.
[6] Wang Yi Lin, Yin Jingwei, Hui Junying. A Multi - objective Method for Distinguishing Radiated Noise with the Same Frequency [P]. Heilongjiang: CN101539597,2009-09-23.
[7] Yin Jingwei, Zhang Xiao, Du Pengyu, Mei Jidan, Sheng Xueli, Yang Sen. A Single Vector Sensor Method for Underwater Acoustic Multiple Access [P]. Heilongjiang: CN102255671A,2011-11-23.
[8] Yin Jingwei, Zhang Xiao, Guo Xiaoyu, Han Xiao, Yin lu.Pattern Delay Difference Encoding Underwater Acoustic Communication Method Based on Non - fixed Symbol Width [P]. Heilongjiang: CN102315883A,2012-01-11.
[9] Yin Jingwei, Han Xiao, Zhang Xiao, Guo Longxiang. A Bionic Artificial Acoustic Communication Method Based on Difference Pattern Delay Difference Coding [P]. Heilongjiang: CN103368660A,2013-10-23.
[10] Sheng Xueli, Lu Jia, Dong Weijia, Guo Lngxiang, Yin Jingwei. A Multi - Base Sonar Space-Time Channel Multiplexing Method [P]. Heilongjiang: CN103152139A,2013-06-12.
[11] Yin Jingwei, han Xiao, Du Pengyu, Zahng Xiao. The method of Underwater Acoustic Communication Based on Virtual Time Inverting Mirror M Element Bionics Coding [P]. Heilongjiang: CN103401619A,2013-11-20.
[12] Yin Jingwei, Yang Guang, Liu Qiang, Zhang xiao, Han Xiao, Pan Zhengrong. Method for Determining Underwater Target Depth of Passive Vertical Double Vector Hydrophone [P]. Heilongjiang: CN104091048A,2014-10-08.