上海大學(xué)通信與信息工程學(xué)院導(dǎo)師:王濤

發(fā)布時間:2021-10-09 編輯:考研派小莉 推薦訪問:
上海大學(xué)通信與信息工程學(xué)院導(dǎo)師:王濤

上海大學(xué)通信與信息工程學(xué)院導(dǎo)師:王濤內(nèi)容如下,更多考研資訊請關(guān)注我們網(wǎng)站的更新!敬請收藏本站,或下載我們的考研派APP和考研派微信公眾號(里面有非常多的免費考研資源可以領(lǐng)取,有各種考研問題,也可直接加我們網(wǎng)站上的研究生學(xué)姐微信,全程免費答疑,助各位考研一臂之力,爭取早日考上理想中的研究生院校。)

上海大學(xué)通信與信息工程學(xué)院導(dǎo)師:王濤 正文

  ?個人簡介
  王濤,教授、博士生導(dǎo)師
  郵編:200072

  ?教育背景
  2012年從比利時魯汶大學(xué)獲博士學(xué)位(PhD from Université Catholique de Louvain; 通信專業(yè));
  2006年從浙江大學(xué)信電系獲博士學(xué)位(PhD from Zhejiang University; 電子科學(xué)與技術(shù)專業(yè));
  2001年從浙江大學(xué)信電系獲學(xué)士學(xué)位(Bachelor from Zhejiang University; 信息電子技術(shù)專業(yè))。

  ?工作經(jīng)歷
  2013年入選上海高校特聘教授(東方學(xué)者)計劃進(jìn)入上海大學(xué)通信與信息工程學(xué)院;
  2011至2013年在比利時魯汶大學(xué)先后任助研和Research Fellow。

  ?研究方向
  (1) 綠色高能效無線數(shù)據(jù)傳輸和信號處理技術(shù);
  (2) 非線性優(yōu)化、凸優(yōu)化理論與技術(shù)。

  ?榮譽(yù)獎勵
  (1) 2014 中國衛(wèi)星導(dǎo)航學(xué)術(shù)年會信號體制分會特邀報告專家(Keynote speaker in S2 of 2014 China Satellite Navigation Conf.);
  (2) 2013 IEEE WCSP最佳論文獎(Best Paper Award in 2013 IEEE International Conf. Wireless Commun. & Signal Proc.);
  (3) 2012 上海高校特聘教授(東方學(xué)者)稱號 (Shanghai Eastern-Scholar Professorship);
  (4) 2012 評選為IEEE高級會員(Elected to IEEE Senior Member in 2012)。

  ?項目經(jīng)歷
  (1) 歐盟第7框架計劃NEWCOM#項目,2013/1-2015/12,CoPI;
  (2) 比利時聯(lián)邦科學(xué)政策委員會(BELSPO)項目,2012/10-2017/09,CoPI;
  (3) 歐盟第7框架計劃NEWCOM++項目,2008/01-2010/12,CoPI;
  (4) 比利時法語區(qū)項目MIMOCOM,2008/01-2011/12,CoPI;
  (5) 比利時法語區(qū)項目SCOOP(Secure and Coooperative Communications),2008/09-2013/09,CoPI;
  (6) 歐盟ERASMUS-MUNDUS訪問計劃,2006/09-2008/08。

  ?期刊論文
  [J25] W. Li, T. Wang, C. Xiong, J. Wei, Dynamic Optimization for Resource Allocation in Relay Aided OFDMA Systems Under Multi-Service, IEEE Trans. on Vehicular Technology, 2015.
  [J24] M. Qian, Y. Jin, Z. Wu, and T. Wang, Asynchronous Two-Way Relaying  Networks Using Distributed Differential Space-Time Coding, International Journal of Antennas and Propagation, 2015.
  [J23] Y. Wu, T. Wang, Y. Sun et. al., Limited feedback for cooperative multicell MIMO systems with multiple receive antennas, IEICE Trans. Commun., 2014.
  [J22] Z. Wu, G. Li, T. Wang, Two-way Amplify-and-forward relaying with carrier offsets in the absence of CSI: Differential Modulation based Schemes, EURASIP Journal on Wireless Communications and Networking, 2014.
  [J21] Z. Jin, T. Wang, J. Wei, L. Vandendorpe,  Distributed algorithms for sum rate maximization in multi-cell downlink OFDMA with opportunistic DF relaying, EURASIP Journal on Wireless Communications and Networking, 2014.
  [J20] Z. Jin, T. Wang, J. Wei, L. Vandendorpe, Weighted Sum of Per Cell Min-Rate Maximization for Multi-cell Downlink OFDMA with Opportunistic DF, EURASIP Journal on Wireless Communications and Networking, 2014.
  [J19] Z. Jin, T. Wang, J. Wei, L. Vandendorpe, Sum rate maximization for multi-cell downlink OFDMA with subcarrier-pair based opportunistic DF relaying, EURASIP Journal on Wireless Communications and Networking, 2014.
  [J18] L. Huang, Y. Fang and T. Wang, A method to improve convergence performance of ILC systems over wireless networks in presence of channel noise, IET Control Theory & Applications, vol. 8, no. 3, pp. 175-182, Feb. 2014.
  [J17] T. Wang and L. Vandendorpe, On the optimum energy efficiency for flat-fading channels with rate-dependent circuit power, IEEE Transactions on Communications, vol. 61, no. 12, pp. 4910-4921, Dec. 2013.
  [J16] T. Wang, F. Glineur, J. Louveaux and L. Vandendorpe, Weighted Sum Rate Maximization for Downlink OFDMA with Subcarrier-pair based Opportunistic DF Relaying, IEEE Transactions on Signal Processing, vol. 61, no. 5, pp. 2512-2524, May 2013.  pdf
  [J15] T. Wang, Y. Fang and L. Vandendorpe, Power minimization for OFDM Transmission with Subcarrier-pair based Opportunistic DF Relaying, IEEE Communications Letters, vol. 17, no. 3, pp. 471-474, Mar. 2013. pdf.
  [J14] T. Wang and L. Vandendorpe, On the SCALE algorithm for multiuser multicarrier power spectrum management, IEEE Transactions on Signal Processing, vol. 60, no. 9, p.p. 4992 – 4998, Sep. 2012 pdf.
  [J13] T. Wang, Weighted sum power minimization for multichannel decode-and-forward relaying, IET Electronics Letters, vol. 48, no. 7, p.p. 410-411, Apr. 2012 pdf.
  [J12] T. Wang, Novel sensor location scheme using TOA estimates, IET Signal Processing, vol. 6, no. 1, p.p. 8-13, Feb. 2012 pdf.
  [J11] T. Wang, Cramer-Rao Bound for Localization with A Priori Knowledge on Biased Range Measurements, IEEE Transactions on Aerospace and Electronic Systems, vol. 48, no. 1, p.p. 468-476, Jan. 2012 pdf.
  [J10] T. Wang and L. Vandendorpe, Sum rate maximized resource allocation in multiple DF relays aided OFDM transmission, IEEE J. on __selected AREAS in Communications, vol. 29, no. 8, p.p. 1559-1571, Sept. 2011 pdf.
  [J9] T. Wang and L. Vandendorpe, WSR maximized resource allocation in multiple DF relays aided OFDMA downlink transmission, IEEE Transactions on Signal Processing, vol. 59, no. 8, p.p. 3964-3976, Aug. 2011 pdf.
  [J8] T. Wang and L. Vandendorpe, Iterative Resource Allocation for Maximizing Weighted Sum Min-Rate in Downlink Cellular OFDMA Systems, IEEE Transactions on Signal Processing, vol. 59, no. 1, p.p. 223-234, Jan. 2011 pdf.
  [J7] T. Wang, Ranging energy optimization for a TDOA-based distributed robust sensor positioning system, International Journal of Distributed Sensor Networks, vol. 2010 pdf.
  [J6] T. Wang, G. Leus, and L. Huang, Ranging Energy Optimization for Robust Sensor Positioning Based on Semidefinite Programming,IEEE Transactions on Signal Processing, vol. 57, no. 12, p.p. 4777-4787, Dec. 2009 pdf.
  [J5] T. Wang, Improving processing gain of UWB systems with NBI by signal parameters selection independent of TH codes, European Transactions on Telecommunications, vol. 16, no. 6, p.p. 567–571, Nov./Dec. 2005 pdf.
  [J4] T. Wang, Y. Wang, and K. Chen, A Fast Optimizing Technique for Planar Spiral Inductors Based on Binary Search Algorithm, Chinese Journal of Semiconductors, vol. 24, no. 9, p.p. 999-1004, Sep. 2003.
  [J3] Y. Wang and T. Wang, Interference analysis of time-hopping ultra-wideband signal with pulse amplitude modulation on narrowband system, Journal of Zhejiang University, vol. 38, no. 7, p.p. 831-834, July 2004.
  [J2] M. Cao, Y. Wang, T. Wang, and K. Chen, A new simple design method for space-time block codes, Journal of China Institute of Communications, vol. 25, no. 3, p.p. 33-40, Mar. 2004.
  [J1] Z. Shi, Y. Wang, and T. Wang, Implementation of TCP Protocol in Embedded System, Computer Engineering and Applications, June 2003.

  ?會議論文
  [C25] T. Wang, Comparison of the energy efficiency for decode-and-forward and amplify-and-forward two-way relaying, Proc. 2013 IEEE-BNMT.
  [C24] T. Wang, On the optimum energy efficiency for flat-fading channels with rate-dependent circuit power: time invariant case, Proc. 2013 WCSP (Best Paper Award).
  [C23] T. Wang, Energy-efficiency maximization for OFDMA networks with total power constraint, Proc. 2013 IEEE-ICCC.
  [C22] T. Wang, Y. Fang and L. Vandendorpe, Novel Subcarrier-pair based Opportunistic DF Protocol for Cooperative Downlink OFDMA, Proc. 2013 IEEE-WCNC.
  [C21] Z. Jin, T. Wang, J. Wei and L. Vandendorpe, A Low-Complexity Resource Allocation Algorithm in Multi-Cell DF Relay Aided OFDMA Systems, Proc. 2013 IEEE-WCNC.
  [C20] Z. Jin, T. Wang, J. Wei and L. Vandendorpe, Resource Allocation for Maximizing Weighted Sum of Per Cell Min-Rate in Multi-Cell DF Relay Aided Downlink OFDMA Systems, Proc. 2012 IEEE-PIMRC.
  [C19] T. Wang and L. Vandendorpe, Successive Convex Approximation based Methods for Dynamic Spectrum Management, Proc. 2012 IEEE-ICC, p.p. 4119-4123, 10-15/June 2012
  [C18] T. Wang and L. Vandendorpe, A Two-Step RA Algorithm for Multiple DF Relays Aided OFDMA Downlink Transmission, Joint NEWCOM++/COST 2100 Workshop, Mar. 1-2, 2011.
  [C17] T. Wang and L. Vandendorpe, Coordinate ascent based resource allocation algorithm for maximizing WSMR in downlink cellular OFDMA systems, Proc. IEEE-PIMRC, pp 380-385, 26-29/Sep. 2010.
  [C16] T. Wang and L. Vandendorpe, Iterative Power and Subcarrier Allocation for Maximizing WSMR in Cellular OFDMA Systems, Proc. 8th Intl. Symp. Modeling and Optimization in Mobile, Ad Hoc, and Wireless Networks, pp. 324–329, 4 June, 2010.
  [C15] T. Wang and L. Vandendorpe, Resource Allocation for Maximizing Weighted Sum Min-rate in Downlink Cellular OFDMA Systems, Proc. 2010 IEEE International Conference on Communications, p.p. 1-6, 23-27/May 2010.
  [C14] T. Wang and G. Leus, Ranging energy optimization for robust sensor positioning with collaborative anchors, Proc. IEEE-ICASSP, p.p. 2714 - 2717, 14-19/March 2010.
  [C13] T. Wang and G. Leus, Ranging energy optimization for robust sensor positioning, Proc. IEEE-ICASSP, p.p. 2237-2240, 19-24/April 2009.
  [C12] Bensheng Qi, T. Wang, Enhancing processing gain of UWB systems with NBI by signal parameters selectION, 2005 International Conference on Wireless Communications, Networking and Mobile Computing, vol. 1, p.p. 341-343, Sept. 2005.
  [C11] T. Wang, Z. N. Chen, and K. Chen, Effect of selecting antenna and template on BER performance in pulsed UWB wireless communication systems, Proc. Antenna Tech. Small Antennas and Novel Metamaterials, vol. 1, p.p. 446-449, 7-9/March 2005.
  [C10] T. Wang, Multi-access performance analysis of TH-BPM impulse radio from spectrum point of view, Proc. IEEE Symposium on Spread Spectrum Techniques and Applications, p.p. 290-294, Sep. 2004.
  [C9] T. Wang and Y. Wang, Jam resistance performance of UWB BPM impulse radio with time hopping vs. direct sequence, Proc. IEEE Symposium on Spread Spectrum Techniques and Applications, p.p. 107-111, Sep. 2004.
  [C8] T. Wang and Y. Wang, Capacity of M-ary PAM impulse radio with various derivatives of Gaussian pulse subject to FCC spectral masks, Proc. IEEE Conference on Computers and Communications, vol. 2, p.p. 696-701, July 2004.
  [C7] T. Wang and B. Qi , Analyzing the interference power of ultra wideband time hopping bipolar modulation impulse radio on a generic narrowband receiver, Proc. IEEE 6th Circuits and Systems Symposium on Emerging Technologies, June 2004.
  [C6] T. Wang, Y. Wang, and K. Chen, Genetic algorithm optimization for ultra wideband impulse radio to mitigate multi-band jam interference, Proc. 5th World Congress on Intelligent Control and Automation, vol. 2, p.p. 1429-1433, June 2004.
  [C5] T. Wang, Y. Wang, and K. Chen, A global genetic algorithm based optimization technique for spiral inductor on silicon design, Proc. 5th World Congress on Intelligent Control and Automation, vol. 3, p.p. 2095-2098, 15-19/June 2004.
  [C4] T. Wang, Y. Wang, and K. Chen, Improving the jam resistance performance of UWB impulse radio independently of time hopping codes, Proc. 59th Vehicular Technology Conference, vol. 3, p.p. 1475 - 1479, 17-19/May 2004.
  [C3] T. Wang, Y. Wang, and K. Chen, Ultra wideband impulse radio spectrum control independent of time hopping codes, Proc. 59th Vehicular Technology Conference, vol. 3, p.p. 1401-1405, 17-19/May 2004.
  [C2] T. Wang, Y. Wang, and K. Chen, Analyzing the interference power of narrowband jamming signal on UWB system, Proc. 14th IEEE-PIMRC, vol. 1, p.p. 612-615, 7-10/Sep. 2003.
  [C1] T. Wang, Y. Wang, M. Cao and K. Chen, A novel technique fast optimizing the layout parameters of planar spiral inductor, Proc. 5th International Conference on ASIC, vol. 1, p.p.

以上老師的信息來源于學(xué)校網(wǎng)站,如有更新或錯誤,請聯(lián)系我們進(jìn)行更新或刪除,聯(lián)系方式

添加上海大學(xué)學(xué)姐微信,或微信搜索公眾號“考研派小站”,關(guān)注[考研派小站]微信公眾號,在考研派小站微信號輸入[上海大學(xué)考研分?jǐn)?shù)線、上海大學(xué)報錄比、上海大學(xué)考研群、上海大學(xué)學(xué)姐微信、上海大學(xué)考研真題、上海大學(xué)專業(yè)目錄、上海大學(xué)排名、上海大學(xué)保研、上海大學(xué)公眾號、上海大學(xué)研究生招生)]即可在手機(jī)上查看相對應(yīng)上海大學(xué)考研信息或資源。

上海大學(xué)考研公眾號 考研派小站公眾號
上海大學(xué)

本文來源:http://alternativeofficeassistance.com/shanghaidaxue/daoshi_492766.html

推薦閱讀