孫舒 (Shu Sun)長軌副教授，現(xiàn)任上海交通大學電子信息與電氣工程學院電子工程系副教授，谷歌學術引用量2萬余次，獲IEEE唐納德芬克獎、IEEE尼爾謝菲爾德最佳傳播論文獎、馬可尼學會青年學者獎、美國紐約大學工程學院但丁尤拉獎、英特爾杰出發(fā)明獎、IEEE車載技術學會早期職業(yè)獎等獎項，信道模型成果之一被國際通信標準3GPP采納，擔任多個期刊的編委。

Biography: 

Shu Sun is a tenure-track associate professor in the Department of Electronic Engineering, Shanghai Jiao Tong University (SJTU). She obtained her bachelor's degree from SJTU in 2012, and her Ph.D. degree from New York University (NYU) in 2018 under the supervision of Prof. Theodore S. Rappaport, a member of the National Academy of Engineering of US. Shu interned at Nokia Bell Labs in the summers of 2014 and 2015, and worked as a systems engineer at Intel Corporation from 2018 to 2021, then joined SJTU as a tenure-track associate professor and Ph.D. advisor in 2021. She has over 20,000 Google citations, and has received the IEEE Donald G. Fink Award, IEEE Neil Shepherd Memorial Best Propagation Paper Award, Marconi Society Paul Baran Young Scholar Award, Dante Youla Award for Graduate Research Excellence in Electrical and Computer Engineering at NYU, Distinguished Invention Award from Intel, IEEE VTS Early Career Award, etc. Her research outcome on path loss modeling has been adopted by 3GPP. Furthermore, Shu serves as a guest/associate editor for a few international journals.

研究中心：無線通信技術研究所 

教育及工作經(jīng)歷：

2012年本科畢業(yè)于上海交大，

2018年博士畢業(yè)于美國紐約大學，師從美國工程院院士Theodore S. Rappaport教授。

2014年和2015年兩次在美國諾基亞貝爾實驗室進行暑期實習，

2018年至2021年在美國英特爾公司擔任系統(tǒng)工程師，

2021年11月入職上海交大，擔任長聘教軌副教授、博士生導師。

學術兼職：

Professional Services: 

1、Guest Editor for IEEE JSAC Special Issue on "3GPP Technologies: 5G-Advanced and Beyond” 

2、Associate Editor for IEEE Open Journal of Antennas and Propagation 

3、Guest Editor for Sensors Special Issue on Millimeter-Wave Wireless Communications

主講授課：

Teaching: Signals and Systems
 

研究領域

無線通信 

Field of Research: 

Wireless communications 

研究方向

毫米波無線信道測量與建模，波束賦形，通信感知一體化，全息MIMO，智能超表面

 Research topics: 

Millimeter-wave wireless channel measurements and modeling, Beamforming, Integrated sensing and communication (ISAC), Holographic MIMO, Reconfigurable intelligent surface

發(fā)明專利：

[1]張軒, 孫舒, 陶梅霞. 可重構智能表面輔助的低軌衛(wèi)星通導融合方法及系統(tǒng)[P]. 上海市: CN117040595A, 2023-11-10.

著作及專利： 

Contributor for the book "Radio Propagation Measurements and Channel Modeling: Best Practices for Millimeter-Wave and Sub-Terahertz Frequencies", Cambridge University Press, 2022. (Edited by Theodore S. Rappaport, New York University, Kate A. Remley, National Institute of Standards and Technology, Maryland, Camillo Gentile, National Institute of Standards and Technology, Maryland, Andreas F. Molisch, University of Southern California, Alenka Zajic, Georgia Institute of Technology) 

重要論文

Selected papers:

1、W. Chen, X. Lin, J. Lee, A. Toskala, S. Sun, C. F. Chiasserini, and L. Liu, "5G-Advanced towards 6G: Past, present, and future," IEEE Journal on Selected Areas in Communications, vol. 41, no. 6, pp. 1592-1619, Jun. 2023.

2、R. Li, X. Shao, S. Sun, M. Tao, and R. Zhang, “Beam scanning for integrated sensing and communication in IRS-aided mmWave systems,” in Proc. IEEE SPAWC, Sep. 2023.

3、R. Li, S. Sun, and M. Tao, "Applicable Regions of Spherical and Plane Wave Models for Extremely Large-Scale Array Communications," accepted by China Communications, 2023.

4、R. Li, S. Sun, and M. Tao, "Ergodic achievable rate maximization of RIS-assisted millimeter-wave MIMO-OFDM communication systems," IEEE Transactions on Wireless Communications, vol. 22, no. 3, pp. 2171-2184, Mar. 2023.

5、X. Zhang, S. Sun, M. Tao, Q. Huang, and X. Tang, "Joint hybrid beamforming and user scheduling for multi-satellite cooperative networks," 2023 IEEE Wireless Communications and Networking Conference (WCNC), Glasgow, Scotland, UK, Mar. 2023.

6、R. Li, S. Sun, Y. Chen, C. Han, and M. Tao, "Ergodic achievable rate analysis and optimization of RIS-assisted millimeter-wave MIMO communication systems," IEEE Transactions on Wireless Communications, vol. 22, no. 2, pp. 972-985, Feb. 2023.

7、Z. Xiao, S. Sun, Z. Liu, L. Xu, W. Huang, L. Wang, and A. Fei, "Propagation path loss models in forest scenario at 605 MHz,” in Proceedings of 2022 IEEE 96th Vehicular Technology Conference (VTC2022-Fall), London/Beijing, 2022.

8、S. Sun and M. Tao, “Characteristics of channel eigenvalues and mutual coupling effects for holographic reconfigurable intelligent surfaces,” Sensors, vol. 22, no. 14, pp. 5297, Jul. 2022.

9、H. Tataria, M. Shafi, M. Dohler, and S. Sun, “Six critical challenges for 6G wireless systems: A summary and some solutions,” IEEE Vehicular Technology Magazine, vol. 17, no. 1, pp. 16-26, Mar. 2022.

10、S. Sun and H. Yan, “Small-scale spatial-temporal correlation and degrees of freedom for reconfigurable intelligent surfaces,” IEEE Wireless Communications Letters, vol. 10, no. 12, pp. 2698-2702, Dec. 2021.

11、S. Sun and H. Yan, “Channel estimation for reconfigurable intelligent surface-assisted wireless communications considering Doppler effect,” IEEE Wireless Communications Letters, vol. 10, no. 4, pp. 790-794, Apr. 2021.

12、S. Sun and S. Moon, "Practical scheduling algorithms with contiguous resource allocation for next-generation wireless systems," IEEE Wireless Communications Letters, vol. 10, no. 4, pp. 725-729, Apr. 2021.

13、S. Sun and X. Li, “Deep-reinforcement-learning-based scheduling with contiguous resource allocation for next-generation cellular systems,” in Proceedings of Computing Conference, 2021, pp. 648-660.

14、S. Sun, S. Moon, and J. -K. Fwu, “Practical link adaptation algorithm with power density offsets for 5G uplink channels,” IEEE Wireless Communications Letters, vol. 9, no. 6, pp. 851-855, Jun. 2020.

15、S. Sun, T. S. Rappaport, M. Shafi, and H. Tataria, “Analytical framework of hybrid beamforming in multi-cell millimeter-wave systems,” IEEE Transactions on Wireless Communications, vol. 17, no. 11, pp. 7528-7543, Nov. 2018.

16、S. Sun, T. S. Rappaport, M. Shafi, P. Tang, J. Zhang, and P. J. Smith, “Propagation models and performance evaluation for 5G millimeter-wave bands,” IEEE Transactions on Vehicular Technology, vol. 67, no. 9, pp. 8422-8439, Sep. 2018. (2023 IEEE Neil Shepherd Memorial Best Propagation Paper Award)

17、S. Sun, G. R. MacCartney, and T. S. Rappaport, “A novel millimeter-wave channel simulator and applications for 5G wireless communications,” in IEEE International Conference on Communications (ICC), Paris, France, 2017, pp. 1-7.

18、S. Sun, H. Yan, G. R. MacCartney, and T. S. Rappaport, “Millimeter wave small-scale spatial statistics in an urban microcell scenario,” in IEEE International Conference on Communications (ICC), Paris, France, 2017, pp. 1-7.

19、S. Sun et al., “Investigation of Prediction Accuracy, Sensitivity, and Parameter Stability of Large-Scale Propagation Path Loss Models for 5G Wireless Communications,” IEEE Transactions on Vehicular Technology, vol. 65, no. 5, pp. 2843-2860, May 2016. (2017 IEEE Neil Shepherd Memorial Best Propagation Paper Award)

20、K. Haneda et al., “5G 3GPP-like channel models for outdoor urban microcellular and macrocellular environments,” in IEEE 83rd Vehicular Technology Conference (VTC Spring), Nanjing, China, 2016, pp. 1-7. (2016 IEEE VTC-Spring Best Paper Award)

21、S. Sun, T. S. Rappaport, R. W. Heath, A. Nix and S. Rangan, “MIMO for millimeter-wave wireless communications: beamforming, spatial multiplexing, or both?” IEEE Communications Magazine, vol. 52, no. 12, pp. 110-121, Dec. 2014.

22、T. S. Rappaport, S. Sun, R. Mayzus, H. Zhao, Y. Azar, K. Wang, G. N. Wong, J. K. Schulz, M. K. Samimi, F. Gutierrez, “Millimeter wave mobile communications for 5G cellular: It will work!” IEEE Access, vol. 1, pp. 335-349, May 2013. (2015 IEEE Donald G. Fink Award)

榮譽獎勵：

1、2023年尼爾謝菲爾德最佳傳播論文獎（2023 Neal Shepherd Memorial Best Propagation Paper Award） 

2、2023年IEEE車載技術學會早期職業(yè)獎（2023 IEEE VTS Early Career Award） 

3、2022年上海交通大學小米青年學者 

4、2022年全國人工智能大賽AI+無線通信賽道三等獎（團隊獎） 

5、2021年國家級青年人才 

6、2021 年美國英特爾公司杰出發(fā)明獎 

7、2020 年美國英特爾公司第三季度部門表彰獎 

8、2018年美國紐約大學工程學院但丁尤拉獎 

9、2017年馬可尼學會青年學者獎 

10、2017年IEEE尼爾謝菲爾德最佳傳播論文獎 

11、2016年IEEE春季車輛技術會議最佳論文獎 

12、2015年IEEE唐納德芬克獎 

13、2012年上海交通大學優(yōu)秀畢業(yè)生 

Honors and Awards: 

2023 IEEE Neil Shepherd Memorial Best Propagation Paper Award 

2023 IEEE VTS Early Career Award 

2022 Xiaomi Young Scholar of Shanghai Jiao Tong University 

2022 Third Prize in the Track “AI + Wireless Communications” of National Artificial Intelligence Challenge (Team award) (https://naic.pcl.ac.cn/contest/10/34) 

2021 Distinguished Invention Award at Intel 

2020 Division Recognition Award of NGS at Intel 

2018 Dante Youla Award for Graduate Research Excellence in Electrical and Computer Engineering at New York University 

2017 Marconi Society Paul Baran Young Scholar Award 

2017 IEEE Neil Shepherd Memorial Best Propagation Paper Award 

2016 IEEE VTC-Spring Best Paper Award 

2015 IEEE Donald G. Fink Award 

2012 Outstanding Graduate of Shanghai Jiao Tong University

 

上海交大孫舒副教授同時獲得IEEE車載技術大會兩項大獎

2023年10月20日

10月10日至13日，IEEE車載技術學會旗艦會議“IEEE車載技術大會（VTC）秋季會議”在中國香港舉行，上海交通大學電子信息與電氣工程學院電子工程系孫舒副教授榮獲2023年IEEE車載技術學會早期職業(yè)獎（Early Career Award）和2023年尼爾謝菲爾德最佳傳播論文獎（Neal Shepherd Memorial Best Propagation Paper Award），以上兩項重要獎項每年全球各僅有1個名額。

 

 2023年IEEE車載技術學會早期職業(yè)獎證書

 

 2023年尼爾謝菲爾德最佳傳播論文獎證書

 

2023年IEEE車載技術學會早期職業(yè)獎（2023 IEEE VTS Early Career Award） 

獲獎理由：對5G毫米波通信發(fā)展的基礎貢獻（最早做蜂窩網(wǎng)毫米波大規(guī)模傳播實驗和信道建模的學者之一） 

 

孫舒副教授在中國香港頒獎現(xiàn)場接受獎牌

2023年尼爾謝菲爾德最佳傳播論文獎（2023 Neal Shepherd Memorial Best Propagation Paper Award） 

 

 

IEEE車載技術學會的獎項委員會主席Gordon Stüber（左1）為第一作者孫舒（中）和共同作者之一唐盼（右1）頒發(fā)證書 

獲獎論文： 

Propagation Models and Performance Evaluation for 5G Millimeter-Wave Bands, IEEE Transactions on Vehicular Technology, vol. 67, no. 9, pp. 8422-8439, Sep. 2018 

論文鏈接：https://ieeexplore.ieee.org/document/8386686 

論文作者： 

孫舒（時為美國紐約大學博士生，現(xiàn)為上海交通大學副教授）、Theodore S. Rappaport（美國紐約大學教授）、Mansoor Shafi（新西蘭Spark公司Telecom Fellow）、唐盼（北京郵電大學副研究員）、張建華（北京郵電大學教授）、Peter J. Smith（新西蘭惠靈頓維多利亞大學教授） 

內容介紹： 

毫米波是5G乃至6G的關鍵技術之一，而信道模型是無線系統(tǒng)設計和部署的基礎之一。本文全面概述適用于毫米波頻段的信道模型，并進行系統(tǒng)性能評估。本文首先介紹了信道模型的一般框架，包括路徑損耗模型、大尺度參數(shù)和小尺度參數(shù)模型、多輸入多輸出信道模型。隨后討論了毫米波和微波信道模型的關鍵區(qū)別，以及兩種重要的毫米波信道模型：3GPP信道模型和NYUSIM信道模型。再通過幾個示例說明如何在多種實際應用中運用信道模型，包括與混合波束賦形相結合，展現(xiàn)了模型和相應參數(shù)的影響。上述分析結果說明，很多信道性能指標，如頻譜效率、覆蓋率、硬件/信號處理要求等，都對性能評估中所基于的信道模型非常敏感，體現(xiàn)了建立準確的毫米波信道模型的重要性。 

論文受到學術界和工業(yè)界的廣泛關注，為毫米波在無線通信領域的應用研究提供了有益的指導，促進毫米波成為近幾年無線通信領域最熱門的研究方向之一。 

(a) GSCM/COST和（b）NYUSIM模型中的三維多輸入多輸出信道示例 

個人介紹 

2012年本科畢業(yè)于上海交通大學，2018年博士畢業(yè)于美國紐約大學，2021年加入上海交通大學電子信息與電氣工程學院電子工程系，長聘教軌副教授、博士生導師，研究毫米波通信、通感一體化、智能超表面等，谷歌學術引用2萬余次。其在毫米波通信領域的研究成果被3GPP標準和國內外白皮書采納。曾獲2015年IEEE唐納德芬克獎， 2016年IEEE車載技術大會春季會議最佳論文獎， 2017 年IEEE尼爾謝菲爾德最佳傳播論文獎，2017年馬可尼學會青年學者獎，2018年美國紐約大學但丁尤拉獎，2021年美國英特爾公司杰出發(fā)明獎等獎項。

關于VTC會議 

VTC會議全稱為車載技術會議，是IEEE車載技術學會（VTS）唯一的旗艦會議。VTC會議是全球重要的車聯(lián)網(wǎng)通信學術活動，它匯集了來自政府機構和其他機構的行業(yè)專業(yè)人士、學者和個人，一同交流關于汽車相關無線通信和網(wǎng)絡技術發(fā)展的信息。IEEE車載技術學會早期職業(yè)獎，用于表彰在IEEE車載技術學會感興趣的領域（包括移動無線電、機動車輛和陸地交通）中，對電氣和電子工程的理論、實驗和操作方面做出相關貢獻的杰出年輕科學家或工程師。每年全球僅1個名額；尼爾謝菲爾德最佳傳播論文獎，由IEEE車載技術學會于1993年設立，用以表彰過去五年中發(fā)表在車載技術會刊（IEEE Transactions on Vehicular Technology, TVT）上的杰出論文，每年全球僅1個名額。