beat365正版唯一 移動通信國家重點實驗室 博士、教授、博士生導師
王聞今,2011年于beat365正版唯一通信與信息系統專業獲工學博士學位,後受英國EPSRC資助在英國雷丁大學做博士後研究,現為beat365正版唯一移動通信國家重點實驗室教授。研究方向為:
1)未來移動通信和寬帶低軌衛星通信系統關鍵技術研究與算法設計;
2)基于無線大數據與機器學習的無線通信理論與技術;
3)移動通信試驗平台研發與關鍵算法實驗驗證。
近年來主持十餘項國家重點研發項目課題、國家自然科學基金項目、國家863計劃項目、國家科技重大專項課題等國家級項目,以及十餘項與中國移動、中國航天科技、中國電子科技、國家電網等行業領先企業的合作課題。累計發表學術論文100餘篇,其中IEEE Trans等權威期刊60餘篇。申請國家發明專利100餘項,其中獲得授權50餘項。于2009年獲得教育部技術發明獎一等獎,2022年獲江蘇省科學技術獎一等獎,2023年獲中國通信學會科技進步獎一等獎。
所指導學生在國際權威期刊及會議上發表論文多篇,多次完成國家級SRTP項目,以及獲得省/校優秀碩士學位論文、國家獎學金、優秀畢業生、挑戰杯競賽等獎勵與榮譽。
歡迎對相關研究領域感興趣的同學聯系攻讀博士、碩士學位。歡迎優秀本科同學加入課題組參與科研訓練。
電子郵箱:wangwj@seu.edu.cn
近年來主持科研項目
國家重點研發計劃項目,與5G/6G融合的衛星通信技術研究與原理驗證(課題)
國家重點研發計劃項目,面向手機直連的天地融合寬帶網絡架構及關鍵技術(課題)
國家自然科學基金,密集分布式無線網絡系統中高能效MIMO傳輸及疊代接收技術研究
國家自然科學基金,面向未來移動通信的大規模分層貝葉斯推斷理論方法
國家自然科學基金,面向6G的毫米波大規模免調度傳輸理論方法
國家自然科學基金,基于無線通信大數據的傳輸理論與技術(子課題)
國家自然科學基金,廣域通信網絡彈性适變理論與技術(子課題)
國家863計劃項目,超高吞吐率5G軟基站試驗平台研究開發(子課題)
國家科技重大專項,增強移動寬帶5G關鍵技術驗證系統概念樣機研發(子課題)
江蘇省基礎研究計劃項目,天地融合大規模随機接入理論與技術(子課題)
企業合作課題,AI空口關鍵技術研究與驗證
企業合作課題,星地融合組網及資源分配關鍵技術研究
企業合作課題,基于AI的下行算法設計
企業合作課題,空口對偶架構的高性能低複雜度預編碼聯合設計
企業合作課題,面向6G大規模接入關鍵傳輸技術研究
企業合作課題,基于波束的大規模接入關鍵技術研究
企業合作課題,探統一體組網通信設備
企業合作課題,衛星互聯網接入網用戶鍊路設計及仿真
企業合作課題,用戶鍊路建模及仿真技術研究
企業合作課題,低軌衛星寬帶終端初始接入同步技術
二、期刊論文
[1]Y. Huang, L. You, C. G. Tsinos, W. Wang and X. Gao. QoS-aware precoding in downlink massive MIMO LEO satellite communications. IEEE Communications Letters, 27(6): 1560-1564, Jun. 2023.
[2]X. Liu, W. Wang, X. Gong, X. Fu, X. Gao and X. -G. Xia. Structured hybrid message passing based channel estimation for massive MIMO-OFDM systems. IEEE Transactions on Vehicular Technology, 72(6): 7491-7507, Jun. 2023.
[3]H. Jiang, L. You, A. Elzanaty, J. Wang, W. Wang, X. Gao, M.-S. Alouini. Rate-splitting multiple access for uplink massive MIMO with electromagnetic exposure constraints. IEEE Journal on Selected Areas in Communications, 41(5): 1383-1397, May 2023.
[4]X. Xiao, L. You, J. Wang, W. Wang and X. Gao. Multigroup multicast beamforming for high throughput GEO satellite communications under power-consumption outage constraints. IEEE Communications Letters, 27(3): 941-945, Mar. 2023.
[5]L. You, Y. Huang, W. Zhong, W. Wang, X. Gao. Robust online energy efficiency optimization for distributed multi-cell massive MIMO networks. Science China - Information Sciences, 66(3): 132302, Mar. 2023.
[6]T. Fang, Y. Gao, C. Suo, G. Sun, P. Chen, W. Xiao, W. Wang. A multi-beam XL-MIMO testbed based on hybrid CPU-FPGA architecture. Electronics. 12(2): 380, Jan. 2023.
[7]S. Wu, G. Sun, Y. Wang, L. You, W. Wang, R. Ding. Low-complexity user scheduling for LEO satellite communications. IET Communications, 17(12): 1368-1383, Jul. 2023.
[8]H. Jiang, L. You, J. Wang, W. Wang and X. Gao. Hybrid RIS and DMA assisted multiuser MIMO uplink transmission with electromagnetic exposure constraints. IEEE Journal of Selected Topics in Signal Processing, 16(5): 1055-1069, Aug. 2022.
[9]Y. Zhu, G. Sun, W. Wang, L. You, F. Wei, L. Wang, and Y. Chen. OFDM-based massive grant-free transmission over frequency-selective fading channels. IEEE Transactions on Communications, 70(7): 4543-4558, Jul. 2022.
[10]Y. Wang, W. Wang, L. You, C. G. Tsinos and S. Jin. Weighted MMSE precoding for constructive interference region. IEEE Wireless Communications Letters, 11(12): 2605-2609, Dec. 2022.
[11]B. Jiang, Y. Yan, L. You, J. Wang, W. Wang and X. Gao. Robust secure transmission for satellite communications. IEEE Transactions on Aerospace and Electronic Systems, 59(2): 1598-1612, Apr. 2022.
[12]Y. Liu, Y. Wang, J. Wang, L. You, W. Wang and X. Gao. Robust downlink precoding for LEO satellite systems with per-antenna power constraints. IEEE Transactions on Vehicular Technology, 71(10): 10694-10711, Oct. 2022.
[13]X. Song, S. Ma, P. Neuhaus, W. Wang, X. Gao and G. Fettweis. On robust millimeter wave line-of-sight MIMO communications with few-bit ADCs. IEEE Transactions on Wireless Communications, 21(12): 11164-11178, Dec. 2022.
[14]L. Li, T. Chen, W. Wang, X. Song, L. You and X. Gao. LoS MIMO transmission for LEO satellite communication systems. China Communications, 19(10): 180-193, Oct. 2022.
[15]L. You, J. Xu, G. C. Alexandropoulos, J. Wang, W. Wang and X. Gao. Energy efficiency maximization of massive MIMO communications with dynamic metasurface antennas. IEEE Transactions on Wireless Communications, 22(1): 393-407, Jan. 2022.
[16]C. Wu, Y. Zhu, W. Wang, C. -X. Wang and X. Gao. Improvement of the cluster-level spatial consistency of channel simulator with reference points transition method. IEEE Transactions on Vehicular Technology, 71(6): 5867-5879, Jun. 2022.
[17]H. Jiang, L. You, W. Wang and X. Gao. Multiuser MIMO uplink transmission with electromagnetic exposure constraints: Spectral efficiency and energy efficiency tradeoff. IEEE Communications Letters, 26(5): 1096-1100, May 2022.
[18]Y. Wang, J. Shi, W. Wang, et al. A deep learning-based low complexity approach for joint transceiver beamforming. IET Communications, 16(1): 14-28, 2022.
[19]L. You, X. Qiang, K.-X. Li, C. G. Tsinos, W. Wang, X. Gao, B. Ottersten. Hybrid analog/digital precoding for downlink massive MIMO LEO satellite communications. IEEE Transactions on Wireless Communications, 21(8): 5962-5976, Aug. 2022.
[20]G. Sun, Y. Li, X. Yi, W. Wang, X. Gao, L. Wang, F. Wei, and Y. Chen. Massive grant-free OFDMA with timing and frequency offsets. IEEE Transactions on Wireless Communications, 21(5): 3365-3380, May 2022.
[21]D. Zhang, X. Song, W. Wang, G. Fettweis, and X. Gao. Unifying message passing algorithms under the framework of constrained bethe free energy minimization. IEEE Transactions on Wireless Communications, 20(7): 4144-4158, Jul. 2021,
[22]H. Yu, L. You, W. Wang, and X. Yi. Active channel sparsification for uplink massive MIMO with uniform planar array. IEEE Transactions on Wireless Communications, 20(9): 6018-6032, Sep. 2021.
[23]L. You, J. Xiong, D. W. K. Ng, C. Yuen, W. Wang, and X. Gao. Energy efficiency and spectral efficiency tradeoff in RIS-aided multiuser MIMO uplink transmission. IEEE Transactions on Signal Processing, 69: 1407-1421, Dec. 2021.
[24]L. You, J. Xiong, Y. Huang, D. W. K. Ng, C. Pan, W. Wang, and X. Gao. Reconfigurable intelligent surfaces-assisted multiuser MIMO uplink transmission with partial CSI. IEEE Transactions on Wireless Communications, 20(9): 5613-5627, Sep. 2021.
[25]L. You, Y. Huang, D. Zhang, Z. Chang, W. Wang, and X. Gao. Energy efficiency optimization for multi-cell massive MIMO: centralized and distributed power allocation algorithms. IEEE Transactions on Communications, 69(8): 5228-5242, Aug. 2021.
[26]C. Wu, X. Yi, Y. Zhu, W. Wang, L. You, and X. Gao. Channel prediction in high-mobility massive MIMO: from spatio-temporal autoregression to deep learning. IEEE Journal on Selected Areas in Communications, 39(7): 1915-1930, Jul. 2021.
[27]C. Wu, X. Yi, W. Wang, L. You, Q. Huang, X. Gao, and Q. Liu. Learning to localize: A 3D CNN approach to user positioning in massive MIMO-OFDM systems. IEEE Transactions on Wireless Communications, 20(7): 4556-4570, Jul. 2021.
[28]W. Wang, L. Gao, R. Ding, J. Lei, L. You, C. A. Chan, and X. Gao. Resource efficiency optimization for robust beamforming in multi-beam satellite communications. IEEE Transactions on Vehicular Technology, 70(7): 6958-6968, Jul. 2021.
[29]W. Wang, T. Chen, R. Ding, G. Seco-Granados, L. You, and X. Gao. Location-based timing advance estimation for 5G integrated LEO satellite communications. IEEE Transactions on Vehicular Technology, 70(6): 6002-6017, Jun. 2021.
[30]J. Shi, W. Wang, X. Yi, J. Wang, X. Gao, Q. Liu, and G. Y. Li. Learning to compute ergodic rate for multi-cell scheduling in massive MIMO. IEEE Transactions on Wireless Communications, 20(2): 785-797, Feb. 2021.
[31]J. Shi, W. Wang, X. Yi, X. Gao, and G. Y. Li. Deep learning-based robust precoding for massive MIMO. IEEE Transactions on Communications, 69(11): 7429-7443, Nov. 2021.
[32]D. Shi, W. Wang, L. You, X. Song, Y. Hong, X. Gao, and G. Fettweis. Deterministic pilot design and channel estimation for downlink massive MIMO-OTFS systems in presence of the fractional Doppler. IEEE Transactions on Wireless Communications, 20(11): 7151-7165, Nov. 2021.
[33]X. Meng, L. Zhang, C. Wang, L. Wang, Y. Wu, Y. Chen, and W. Wang. Advanced NOMA receivers from a unified variational inference perspective. IEEE Journal on Selected Areas in Communications, 39(4): 934-948, Apr. 2021.
[34]X. Liu, W. Wang, X. Song, X. Gao, and G. Fettweis. Sparse channel estimation via hierarchical hybrid message passing for massive MIMO-OFDM systems. IEEE Transactions on Wireless Communications, 20(11): 7118-7134, Nov. 2021.
[35]L. You, J. Xiong, A. Zappone, W. Wang, and X. Gao. Spectral efficiency and energy efficiency tradeoff in massive MIMO downlink transmission with statistical CSIT. IEEE Transactions on Signal Processing, 68: 2645-2659, Apr. 2020.
[36]L. You, J. Xiong, X. Yi, J. Wang, W. Wang, and X. Gao. Energy efficiency optimization for downlink massive MIMO with statistical CSIT. IEEE Transactions on Wireless Communications, 19(4): 2684-2698, Apr. 2020.
[37]L. You, M. Xiao, X. Song, Y. Liu, W. Wang, X. Gao, and G. Fettweis. Pilot reuse for vehicle-to-vehicle underlay massive MIMO transmission. IEEE Transactions on Vehicular Technology, 69(5): 5693-5697, May, 2020.
[38]L. You, X. Chen, X. Song, F. Jiang, W. Wang, X. Gao, and G. Fettweis. Network massive MIMO transmission over millimeter-wave and terahertz bands: mobility enhancement and blockage mitigation. IEEE Journal on Selected Areas in Communications, 38(12): 2946-2960, Dec. 2020.
[39]S. Li, Y. Liu, L. You, W. Wang, H. Duan, and X. Li. Covariance matrix reconstruction for DOA estimation in hybrid massive MIMO systems. IEEE Wireless Communications Letters, 9(8): 1196-1200, Aug. 2020.
[40]B. Jiang, B. Ren, Y. Huang, T. Chen, L. You, and W. Wang. Energy efficiency and spectral efficiency tradeoff in massive MIMO multicast transmission with statistical CSI. Entropy, 22(9), Sep. 2020.
[41]B. Jiang, L. Qu, Y. Huang, Y. Zheng, L. You, and W. Wang. Energy efficiency optimization in massive MIMO secure multicast transmission. Entropy, 22(10), Oct. 2020.
[42]L. You, A. Liu, W. Wang, and X. Gao. Outage constrained robust multigroup multicast beamforming for multi-beam satellite communication systems. IEEE Wireless Communications Letters, 8(2): 352-355, Apr. 2019.
[43]W. Wang, Y. Tong, L. Li, A.-A. Lu, L. You, and X. Gao. Near optimal timing and frequency offset estimation for 5G integrated LEO satellite communication system. IEEE Access, 7: 113298-113310, Aug. 2019.
[44]W. Wang, Y. Huang, L. You, J. Xiong, J. Li, and X. Gao. Energy efficiency optimization for massive MIMO non-orthogonal unicast and multicast transmission with statistical CSI. Electronics, 8(8), Aug. 2019.
[45]Y. Li, W. Wang, J. Wang, and X. Gao. Fast-convolution multicarrier based frequency division multiple access. Science China - Information Sciences, 62(8), Aug. 2019.
[46]L. You, J. Xiong, K.-X. Li, W. Wang, and X. Gao. Non-orthogonal unicast and multicast transmission for massive MIMO with statistical channel state information. IEEE Access, 6: 66841-66849, Nov. 2018.
[47]L. You, W. Wang, and X. Gao. Energy-efficient multicast precoding for massive MIMO transmission with statistical CSI. Energies, 11(11), Nov. 2018.
[48]Y. Yang, W. Wang, and X. Gao. AMP Dual-turbo iterative detection and decoding for LDPC coded multibeam MSC uplink. China Communications, 15(6): 178-186, Jun. 2018.
[49]Y. Yang, W. Wang, and X. Gao. Distributed RZF precoding for multiple-beam MSC downlink. IEEE Transactions on Aerospace and Electronic Systems, 54(2): 968-977, Apr. 2018.
[50]W. Wang, A. Liu, Q. Zhang, L. You, X. Gao, and G. Zheng. Robust multigroup multicast transmission for frame-based multi-beam satellite systems. IEEE Access, 6: 46074-46083, Aug. 2018.
[51]W. Wang, F.-C. Zheng, and M. Fitch. Design of delay-tolerant space-time codes with limited feedback. IEEE Transactions on Vehicular Technology, 64(2): 839-845, Feb. 2015.
[52]W. Wang, X. Gao, F.-C. Zheng, and W. Zhong. CP-OQAM-OFDM based SC-FDMA: adjustable user bandwidth and space-time coding. IEEE Transactions on Wireless Communications, 12(9): 4506-4517, Sep. 2013.
[53]W. Wang, X. Gao, X. Wu, X. You, C. Zhao, and K.-K. Wong. Dual-turbo receiver architecture for turbo coded MIMO-OFDM systems. Science China - Information Sciences, 55(2): 384-395, 2012.
[54]W. Wang, F.-C. Zheng, A. Burr, and M. Fitch. Design of delay-tolerant linear dispersion codes. IEEE Transactions on Communications, 60(9): 2560-2570, Jul. 2012.
[55]W. Wang, S. Jin, and F.-C. Zheng. Maximin SNR beamforming strategies for two-way relay channels. IEEE Communications Letters, 16(7): 1006-1009, Jul. 2012.
[56]W. Wang, X. Gao, X. Wu, X. You, C. Zhao, and K.-K. Wong. Dual-turbo receiver architecture for turbo coded MIMO-OFDM systems. Science China Information Sciences, 55(2): 384-395, 2012.
[57]X. Liang, S. Jin, W. Wang, X. Gao, and K.-K. Wong. Outage probability of amplify-and-forward two-way relay interference-limited systems. IEEE Transactions on Vehicular Technology, 61(7): 3038-3049, Sep. 2012.
[58]X. Gao, W. Wang, X.-G. Xia, E. K. S. Au, and X. You. Cyclic prefixed OQAM-OFDM and its application to single-carrier FDMA. IEEE Transactions on Communications, 59(5): 1467-1480, May 2011.
[59]W. Wang, S. Jin, X. Gao, K.-K. Wong, and M. R. McKay. Power allocation strategies for distributed space-time codes in two-way relay networks. IEEE Transactions on Signal Processing, 58(10): 5331-5339, Oct. 2010.
