WU Ming-Wei

National University of Singapore, B. Eng. (Electrical), 1996-2000
National University of Singapore, M. Eng., 2000-2002
Research Engineer, Institute for Infocomm Research, Singapore, 2002-2004
Zhejiang University of Science and Technology, Lecturer, 2004-2013
National University of Singapore, Ph. D, 2007-2010
Research Associate, National University of Singapore, 2011-2012
Zhejiang University of Science and Technology, Associate Professor, 2013-2019
Zhejiang University of Science and Technology, Professor, 2019-present
Senior Member of the China Communications Society
IEEE member
Technical program committee member of international communication conferences such as ICC, Globecom, VTC

Email: wu_mingwei2004@aliyun.com

Main Research Interests
Wireless communication and optical communication physical layer transmission technologies. Supervising postgraduate research topics including:
1.Intelligent sensing, such as wireless signal with deep learning algorithms
2.Physical layer machine learning algorithms
3.Free space optical communication
4.Visible light communication and positioning algorithm
Main Research Projects
1.National Natural Science Foundation of China (NSFC) for Young Scholars
2.Ministry of Education of the PRC (SRF for the ROCS, the 47th batch);
3.Qianjiang Talent Project
4.Scientific Research Fund of Zhejiang Provincial Education Department
Main Published Papers
1.H.-D. Zheng, M.-W. Wu, Q. H, P.-Y. Kam, “New upper bounds on the Gaussian Q-function via Jensen's inequality and integration by parts, and applications in symbol error probability analysis”, accepted by Eletronics Letters.
2.M.-W. Wu, Y. Jin, Y. Li, T. Song, and P.-Y. Kam, “Maximum-likelihood, magnitude-based, amplitude and noise variance estimation,” IEEE Signal Processing Letters, vol. 28, pp. 414-418, 2021.
3.M.-W. Wu, T. Song, Y. Li, X. Du, and P.-Y. Kam, “On-off controlled wireless transmission via block-acceptance scheme based on measured channel gain – achievable diversity order,” IEEE Wireless Communications Letters, vol. 4, no. 8, pp. 1175-1178, 2019.
4.Y. Li, M.-W. Wu, X. Du, T. Song, and P.-Y. Kam, “A refinement to the Viterbi-Viterbi carrier phase estimator and an extension to the case with a Wiener carrier phase process,” IEEE Access, vol. 7, pp. 78170-78184, Jun. 2019.
5.M.-W. Wu, Y. Li, G. Mohan, and P.-Y. Kam, “A tight lower bound on the Gaussian Q-function with a simple inversion algorithm, and an application to coherent optical communications,” IEEE Communications Letters, vol. 22, no. 7, pp. 1358-1361, July 2018.
6.T. Song, M.-W. Wu, and P. Y. Kam, “Mitigation of the background radiation for free-space optical IM/DD systems,” IEEE Communications Letters, vol. 22, no. 2, pp. 292-295, Feb. 2018.
7.Y. Li, M.-W. Wu, X.-W. Du, G. Mohan, C.-Y. Yu, and P.-Y. Kam, “Maximum-Likelihood Mth Power Carrier Phase Estimation for Coherent Optical Communication,” in CLEOPR, 2018.
8.Y. Li, M. Wu, X. Du, Z. Xu, G. Mohan, C. Yu and P.-Y. Kam, “Nonlinear phase noise tolerance for coherent optical systems using soft-decision-aided ML carrier phase estimation enhanced with constellation partitioning,” Optics Communications, vol. 409, no. Supplement C, pp. 45-51, Feb. 2018.
9.H. Yuan, M.-W. Wu, and P.-Y. Kam, “A modification of the BCJR algorithm over the flat fading channel and its application to turbo decoding,” in ICCC, Qingdao, China, 2017.
10.T. Song, Q. Wang, M.-W. Wu, T. Ohtsuki, G. Mohan and P. Y. Kam, “Impact of pointing errors on the error performance of inter-satellite laser communications,” IEEE/OSA Journal of Lightwave Technology, vol. 35, no. 14, pp. 3082- 3091, July 2017.
11.耿驰, 吴茗蔚, 王振永, 宋天宇和甘培润, “自动重传请求机制在空间光通信中的性能” 光学精密工程, vol. 24, no. 10, pp. 309-315, Oct. 2016.
12.T. Song, Q. Wang, M.-W. Wu and P. Y. Kam, “Performance of laser inter-satellite links with dynamic beam waist adjustment,” Optics Express, vol. 24, no. 11, pp. 11950-11960, May 2016.
13.Q. Wang, T. Song, T. Ohtsuki, M.-W. Wu and P.-Y. Kam, “Influence of pointing errors on error probability of inter-satellite laser communications,” Proc. The 21st OptoElectronics and Communications Conference (OECC 2016).    
14.H. Yuan, M.-W. Wu, and P.- Y. Kam, “Code-aided channel estimation and decoding over the flat fading channel with no pilot symbol,” Proc. ICCC, Nov. 2015.
15.Z.-P. Wang, F.-N. Chen, M.-W. Wu，M. Chen, J. Tang, and J. Chen, “Experimental evaluation of the BER performance in optical OFDM system based on discrete Hartley transform precoding,” Optoelectronics Letters, vol. 10, no. 3, pp. 224-227, 2014.
16.M.-W. Wu, and P.- Y. Kam, “Soft-decision-aided, maximum-likelihood carrier phase estimation for coherent optical QAM,” Journal of Lightwave Technology, vol. 31, no. 22, pp. 3443–3452, Nov. 2013.
17.H. Fu, M.-W. Wu and P. Y. Kam, “Explicit, closed-form performance analysis in fading via new bound on Gaussian Q-function”, Proc. IEEE Int. Conf. Commun. (ICC2013), Jun. 2013.
18.H. Fu, M.-W. Wu and P. Y. Kam, “Lower bound on averages of the product of L Gaussian Q-functions over Nakagami-m fading”, Proc. IEEE Veh. Technol. Conf. Spring 2013 (VTC 2013-Spring), Jun. 2013.
19.X. Lin, M.-W. Wu and P. Y. Kam, “Error performance analysis of differential detection for amplify-and-forward relay systems”, Proc. IEEE Wireless Commun. Netw. Conf. (WCNC2013), Apr. 2013, pp. 3914-3919.
20.M.-W. Wu, and P.-Y. Kam, “ARQ with channel gain monitoring,” IEEE Trans. Commun., vol. 60, no. 11, pp. 3342–3352, Nov. 2012.
21.M. Wu, and P. Y. Kam, “ARQ with packet-error-outage-probability QoS measure”, in Proc. IEEE Int. Conf. Commun. (ICC2011), Kyoto, Jun. 2011, pp. 1–5. Best Paper Award
22.M. Wu, and P. Y. Kam, “New exponential lower bounds on the Gaussian Q-function via Jensen's inequality”, in Proc. IEEE Veh. Technol. Conf. Spring 2011 (VTC 2011-Spring), Budapest, May 2011, pp. 1–5.
23.M. Wu, and P. Y. Kam, “Performance analysis and computational complexity comparison of sequence detection receivers with no explicit channel estimation”, IEEE Trans. Veh. Technol., vol. 59, no. 5, pp. 2625–2631, Jun. 2010.
24.M. Wu, and P. Y. Kam, “Instantaneous symbol error outage probability over fading channels with imperfect channel state information”, in Proc. IEEE Veh. Technol. Conf. 2010 Spring (VTC 2010-Spring), Taipei, May 2010, pp. 1–5.  
25.M. Wu, and P. Y. Kam, “Sequence detection on fading channels without explicit channel estimation”, in Proc. Wireless VITAE, Aalborg, Denmark, May 2009, pp. 370–374.
26.M. Gao, and M. Wu, “On the delay performance of selective-repeat ARQ for underwater acoustic channels”, in Proc. Wireless VITAE, Aalborg, Denmark, May 2009, pp. 727–731.
27.S. Y. Tan, Y. H. Chew, T. T. Tjhung, and M. W. Wu, “A two-dimensional impulse noise model and error probability of QAM in DSL”, IEEE Trans. Commun., vol. 51, no. 2, pp.129–134, 2003.
28.M. W. Wu, Y. H. Chew, and T. T. Tjhung, “Comparison of quotiently coherent QAM, differentially coherent QAM and coherent QAM over Rayleigh flat fading Channel”, International Journal on Wireless & Optical Communications (IJWOC), vol. 1, no. 1, pp. 41–52, 2003.
29.Y. H. Chew, M. W. Wu, T. T. Tjhung, and S. L. H. Tay, “SER performance estimation of coherently demodulated QQAM over Rayleigh fading channel”, in Proc. GLOBECOM’01, vol. 6, 2001, pp.3348 –3352.
Patents
1.A Wi-Fi indoor security alarm system based on Fresnel area.
2.A channel estimation method for an on-off keying communication system.
3.An amplitude estimation method based on the signal intensity in communication systems
4.A joint amplitude and noise variance estimation method for communication systems.
5.A symbol-by-symbol detection method for wireless optical communication without channel estimation that can eliminate the effect of ambient light.
6.A sequence detection method based on generalized likelihood ratio for wireless optical communications.
7.Performance measurement of automatic re-transmission request mechanism in space optical communication.
8.A method of automatic re-transmission request without error detection code.