蒋雁翔

发布者:沈如达发布时间:2023-10-25浏览次数:5915

职称:副教授,博士生导师

办公室:无线谷A11217

Emailyxjiang@seu.edu.cn

本课题组致力于6G无线通信、机器学习/深度学习/人工智能、凸优化理论与算法等前沿交叉领域的基础理论与应用研究。已指导学生在通信领域国际顶刊顶会上发表高水平学术论文数十篇、申请/授权国家发明专利数十项、以及获得多种奖励荣誉。欢迎感兴趣的同学联系攻读硕士、博士学位,欢迎优秀本科生加入课题组参与SRTP项目、竞赛、本科毕设、以及接受科研锻炼提高能力水平。

学习经历:

2014/1-2014/12,美国马里兰大学帕克分校,电子与计算机工程系,访问学者

2003/9-2007/4,3044am永利集团3044noc,3044am永利集团3044noc,通信与信息系统专业,博士(提前攻博)

2001/9-2003/8,3044am永利集团3044noc,无线电工程系,通信与信息系统专业,硕士

1995/9-1999/7,南京大学,电子科学与工程系,电子学与信息系统专业,本科

工作经历:

2007/5-至今,3044am永利集团3044noc,移动通信国家重点实验室

教授课程:

信息论基础(研讨)本科生专业课

现代无线通信系统本科生通识课

科技写作研究生课程

研究方向:

近年来,课题组在基于人工智能的无线通信技术、基于凸优化的绿色无线通信技术、以及基于随机几何的无线通信网络性能分析等方面取得了若干系统性原创性国际一流科研成果。

近期主要研究方向包括:先进人工智能在未来无线通信中的应用6G无蜂窝大规模MIMO传输理论与关键技术、6G超低能耗智能绿色通信理论与关键技术、6G超低时延超高可靠大规模无线传输理论与关键技术、移动边缘智能通信理论与关键技术等。

获奖情况:

[1]     2022,所指导的本科生卞XX获得IEEE通信学会组织的“通信技术改变世界竞赛“HONORARY MENTION”(全球前14名)

[2]     2019,所指导的研究生李X获得“中兴通讯公司级优秀毕业生”0.1%

[3]     2019,所指导的本科生夏XX获得“江苏省优秀本科毕业设计”1%

[4]     2018,所指导的研究生陈X获得“中国研究生数学建模大赛”一等奖(1%和“最佳数模报告奖”0.01%

 

论文著作:

蒋雁翔博士是IEEE高级会员,中国通信学会和中国电子学会高级会员,中国人工智能学会和中国计算机学会专业会员,担任国际期刊IEEE AccessWireless   Communications and Mobile ComputingEURASIP   Journal on Wireless Communications and NetworkingFrontiers in Communications and Networks编委(Associate Editor),担任IEEE   ICCT 2023 Track ChairIWCMC   2023 Symposium ChairIEEE   VTC 2022-Fall Track Chair & Session ChairIEEE GLOBECOM 2018   Session ChairIEEE VTC 2018-Fall   Session ChairIEEE   VTC 2016-Spring Local Patronage and Exhibits Chair,长期担任IEEE  TWCTCOMTVTJSACJSTSPWCLCL等国际一流期刊的审稿人以及IEEE ICCGLOBECOMWCNCVTCPIMRCSPAWC等国际主流会议的技术委员会委员。

 

IEEE Transactions on   Wireless CommunicationsIEEE   Transactions on CommunicationsIEEE   Transactions on Vehicular Technology等通信领域国际顶级期刊和IEEE ICCGLOBECOM等通信领域国际旗舰会议上已发表SCI/EI学术论文100余篇、已授权国家发明专利58项;已有多篇论文入选“ESI1%高被引论文Engineering学术领域同一出版年最优秀的前1%之列);入选“斯坦福全球前2%顶尖科学家”榜单;所发表的众多研究成果获国内外同行广泛引用与高度评价。

 

课题组研究生毕业后就职去向主要为字节跳动、阿里巴巴、百度、华为、中兴、中移动、国家电网、英特尔等互联网与通信行业高技术企业以及其他优势行业头部企业。

 

新近发表的代表性国际顶级期刊论文:(*代表通信作者

[1]    Y. Huang, Y. Jiang*, F.-C. Zheng,   and X. You, “Learning-Driven Rate-Splitting for Energy-Efficient Hardware-Impaired   Cell-Free URLLC Systems,” IEEE Transactions on Wireless Communications,   pp. 1-16, Jul. 2025. [Early Access]

[2]    S. Wang, M. Yang, and Y. Jiang*, Delay-   and Energy-Efficient Task Offloading in Cell Free Massive MIMO-enabled   Vehicular Fog Computing,” IEEE Transactions on Wireless Communications,   vol. 24, no. 5, pp. 3715-3730, May 2025.

[3]    Y. Huang, Y. Jiang*, F.-C. Zheng,   P. Zhu, and T. Quek, “Effective Energy Efficiency of Cell-Free mMIMO Systems   for URLLC with Probabilistic Delay Bounds and Finite Blocklength   Communications,” IEEE Transactions on Wireless Communications, vol.   24, no. 3, pp. 2279-2296, Mar. 2025.

[4]    Q. Tan,Y.   Jiang*, Y.   Huang,F.-C. Zheng, and D. Niyato, “Access   Points Cooperation Based Secretive Coded Caching in Fog Radio   Access Networks,” IEEE Transactions   on Vehicular Technology,vol. 74, no. 2, pp. 2826-2839, Feb. 2025. 

[5]    Y. Chen,Y.   Jiang*, Y.   Huang,F.-C. Zheng, and D. Niyato, “Edge   Cooperation Based Coded Caching in Fog Radio Access Networks,” IEEE Transactions on Vehicular Technology, vol. 74, no. 1, pp. 1238-1251, Jan. 2025

[6]    H. Li, Y. Jiang*,Y.   Huang, F.-C. Zheng, and G. Wu, “A Multi-Agent DRL Method for Distributed   Energy-Efficient Association and Hybrid Precoding in mmWave Cell-Free Massive   MIMO Systems,” IEEE Communications Letters,vol.   29, no. 1, pp. 70-74, Jan. 2025.

[7]    Y. Zhang,Y.   Jiang*,Y. Huang, and F.-C. Zheng,   “Energy Consumption Optimization in Cell-Free Massive MIMO Systems with   Hybrid Energy Supply,” IEEE Wireless Communications Letters,vol.   14, no. 1, pp. 98-102, Jan. 2025.

[8]    Q. Chang, Y. Jiang*, Y. Huang,   F.-C. Zheng, D. Niyato, and X. You, “Multi-Agent Reinforcement Learning based   Cooperative Caching with Low Entropy Communications in Fog-RANs,” IEEE   Transactions on Communications, pp. 1-15, Dec. 2024. [Early Access]

[9]    M. Zhang,Y.   Jiang*, F.-C.   Zheng, D. Wang, M. Bennis,A. Jamalipour, andX. You, “Communication Efficient   Federated Reinforcement Learning Method for Cooperative Edge Caching in Fog   Radio Access Networks,” IEEE   Transactions on Wireless Communications,vol. 23, no. 12, pp. 18409-18422, Dec. 2024.

[10]    Y. Huang,Y. Jiang*,   F.-C. Zheng, P. Zhu, D. Wang, and X. You, “Energy Efficiency Optimization   of User-Centric Cell-free Massive MIMO System for URLLC with   Finite Blocklength Communications,” IEEE Transactions on Vehicular Technology, vol. 73, no. 9, pp. 12081-12814, Sept. 2024.

[11]    Y. Huang,Y.   Jiang*,   F.-C. Zheng, P. Zhu, D. Wang, and X. You, “Spectral and Energy Efficiency   Trade-off in Cell-free Massive MIMO-aided URLLC System,” IEEE Transactions on Vehicular Technology,vol. 73, no. 9, pp. 13023-13037, Sept. 2024.

[12]    Z. Wu, Y. Jiang*, Y. Huang,   F.-C. Zheng, and P. Zhu, “Energy-Efficient Joint AP Selection and Power   Control in Cell-Free Massive MIMO Systems: A Hybrid Action Space-DRL   Approach,”IEEE   Communications Letters,vol. 28, no. 9,   pp. 2086-2090, Sept. 2024.

[13]    Y. Huang, Y.   Jiang*,   F.-C. Zheng, P. Zhu, D. Wang, and X. You, “Enhancing   Energy-Efficient URLLC in Cell-Free mMIMO   Systems With Transceiver Impairments: An RSMA-DRL Based Approach,” IEEE   Wireless Communications Letters, vol. 13, no. 5, pp.   1443-1447, May 2024. 

[14]    J. Yan,M. Zhang,Y. Jiang*, F.-C.   Zheng, Q. Chang, K. M.   Abualnaja, S. Mumtaz, and X.   You,Deep   Reinforcement Learning based Joint Edge Caching and Content   Recommendation with Inconsistent File Sizesin   Fog-RANs,” IEEE Transactions on   Vehicular Technology, vol.   73, no. 3, pp. 4264-4276, Mar. 2024.

[15]    Q. Tan,Y.   Jiang*,   L. Zhang,Y. Cui, D. Niyato,F.-C.   Zheng, andX. You,“Secretive   Coded Caching with Nonuniform Demands in Fog Radio Access   Networks,” IEEE   Communications Letters,vol.   27, no. 8, pp. 2252-2256, Aug. 2023.

[16]    S. Wang, G. Chen, Y. Jiang*,   and X. You, “A   Cluster-based V2V Approach for Mixed Data Dissemination in Urban Scenario of   IoVs,” IEEE Transactions on   Vehicular Technology, vol. 72, no. 2, pp. 2907-2920,   Mar. 2023.

[17]    Y. Tao, Y. Jiang*, F.-C.   Zheng, Z. Wang, P. Zhu, M. Tao, D. Niyato, and X. You, “Content Popularity PredictionBased   on Quantized Federated Bayesian Learning in Fog Radio   Access Networks,” IEEE   Transactions onCommunications,   vol. 71, no. 2, pp. 893-907, Feb. 2023.

[18]    Y. Jiang*, B. Wang, F.-C.   Zheng, M. Bennis, and X. You, “Joint MDS Codes and Weighted Graph Based Coded   Caching in Fog Radio Access Networks,” IEEE Transactions on Wireless Communications, vol. 21, no.   9, pp. 6789-6802, Sep. 2022.

[19]    Y. Jiang*, Y. Wu, F.-C.   Zheng, M. Bennis, and X. You, “Federated Learning Based Content Popularity   Prediction in Fog Radio Access Networks,” IEEE Transactions on Wireless   Communications, vol. 21, no. 6, pp. 3836-3849, Jun. 2022.

[20]    Y. Jiang*, X. Chen, F.-C.   Zheng, D. Niyato, and X. You, “Brain Storm Optimization-Based Edge Caching in   Fog Radio Access Networks,” IEEE   Transactions on Vehicular Technology, vol. 70, no. 2, pp.   1807-1820, Feb. 2021.

[21]    Y. Jiang*, C. Wan, M.   Tao, F.-C. Zheng, P. Zhu, X. Gao, and X. You, “Analysis and Optimization of   Fog Radio Access Networks with Hybrid Caching: Delay and Energy Efficiency,” IEEE Transactions on Wireless   Communications, vol. 20, no. 1, pp. 69-82, Jan. 2021.

[22]    Y. Jiang*, H. Feng, F.-C.   Zheng, D. Niyato, and X. You, “Deep Learning-Based Edge Caching in Fog Radio   Access Networks,” IEEE   Transactions on Wireless Communications, vol. 19, no.   12, pp. 8442- 8454, Dec. 2020.

[23]    Y. Jiang*, A.   Peng,   C. Wan, Y. Cui, X. You, F.-C. Zheng, and S. Jin, “Analysis and Optimization   on Cache-enabled Fog Radio Access Networks: Successful Transmission   Probability, Fractional Offloaded Traffic and Delay,”IEEE Transactions on   Vehicular Technology, vol. 69, no. 5, pp. 5219-5231, May 2020.

[24]    Y. Jiang*, Y.   Hu,   M. Bennis, F.-C. Zheng, and X. You, “A Mean Field Game-Based Distributed Edge   Caching in Fog Radio Access Networks,” IEEE Transactions on Communications, vol. 68, no. 3,   pp. 1567-1580, Mar. 2020.

[25]    Y. Jiang*,W.   Huang, M. Bennis, and F.-C. Zheng, “Decentralized asynchronous coded caching   design and performance analysis in fog radio access networks,”IEEE Transactions on   Mobile Computing, vol. 19, no.3,  pp. 540-551,   Mar. 2020.

[26]    Y. Jiang*,P. Li, Z. Ding, F.-C.   Zheng, M. Ma, and X. You, “Joint transmitter and receiver design for pattern   division multiple access,” IEEE   Transactions on Mobile Computing, vol.   18, no. 4, pp. 885-895, Apr. 2019. 

[27]    Y. Jiang*,M. Ma, M.   Bennis,F.-C. Zheng, and X. You, “User   preference learning based edge caching for fog radio access network,” IEEE Transactions on Communications,   vol. 67, no. 2, pp. 1268-1283, Feb. 2019.

[28]    Y. Jiang*, N. Lu, Y.   Chen,  F.-C. Zheng, M. Bennis, X. Gao,   and X. You, “Energy efficient noncooperative power control in small-cell   networks,”IEEE Transactions on Vehicular Technology, vol. 66, no. 8, pp. 7540-7547,   Aug. 2017.

[29]    Y. Jiang*, Q. Liu, F.-C. Zheng,   X. Gao, and X. You, “Energy efficient joint resource allocation and power   control for D2D communications,” IEEE Transactions on Vehicular Technology, vol.   65, no. 8, pp. 6119-6127, Aug. 2016.

 

新近发表的代表性国际旗舰会议论文:(*代表通信作者)

[1]    Y. Huang,Y.   Jiang*,   F.-C. Zheng,andP.   Zhu, “GNN-Based RSMA for Energy Efficiency in Hardware-Impaired   Cell-Free URLLC Systems,” IEEEICC 2025. Jun.   2025, pp. 1-6.

[2]    T. Li, Y. Jiang*, Y. Huang, P.   Zhu, F.-C. Zheng, and D. Wang, “Model-Based Deep Learning for Massive Access   in mmWave Cell-Free Massive MIMO System,” IEEE ICC 2024 Workshop, Jun.   2024, pp. 1-6.

[3]    Y. Lu,Y.   Jiang*,   L. Zhang,M. Bennis, D. Niyato, and X.   You, “Meta Reinforcement Learning-Based Computation Offloading in   RIS-aided MEC-enabled Cell-Free RAN,” IEEEICC 2023,May   2023, pp. 1-7.

[4]    Q. Chang, B. Fan,Y. Jiang*, F.-C. Zheng,M.   Bennis, and X. You, “Security-aware Cooperative Caching in Fog Radio Access   Networks,” IEEEGLOBECOM 2022 Workshop, Dec. 2022, pp.   1-6..

[5]    Y. Wang,Y.   Jiang*,   F.-C. Zheng,D. Niyato, and X.   You, “Cooperative Edge Caching via  Federated   Deep Deterministic Policy Gradient Learning in Fog-RANs,” IEEEGLOBECOM 2022  Workshop,  Dec. 2022, pp. 1-6.

[6]    L. Zhang, Y. Jiang*, F.-C. Zheng,   M. Bennis, and X. You, “Computation Offloading and Resource Allocation in   F-RANs: A Federated Deep Reinforcement Learning Approach,” IEEEICC 2022 Workshop, May 2022, pp. 1-6.

[7]    Y. Chen,Y.   Jiang*,   F.-C. Zheng,M. Bennis, and X.   You, “Coded Caching via Federated Deep Reinforcement Learning in Fog Radio   Access Networks,” IEEEICC 2022 Workshop,May   2022, pp. 1-6.

[8]    Z. Wang,Y.   Jiang*,   F.-C. Zheng,M. Bennis, and X.   You, “Content Popularity Prediction in  Fog-RANs: A Clustered   Federated Learning Based  Approach,” IEEEICC 2022,May 2022, pp.   1-6.

[9]    Q. Chang,Y.   Jiang*,   F.-C. Zheng,M. Bennis, and X.   You, “Cooperative Edge Caching via Multi Agent Reinforcement Learning in   Fog Radio Access Networks,” IEEEICC 2022,May 2022, pp.   1-6.

[10]    Q. Tan,Y.   Jiang*,   F.-C. Zheng,M. Bennis, and X.   You, “MDS Codes Based Group Coded Caching in Fog Radio Access Networks,” IEEEICC 2022,May   2022, pp. 1-6.

[11]    B. Fan,Y.   Jiang*,   F.-C. Zheng,M. Bennis, and X.   You, “Social-aware Cooperative Caching in Fog Radio Access Networks,” IEEEICC 2022,May   2022, pp. 1-6.

[12]    Y. Tao, Y. Jiang*, F.-C.   Zheng, M. Bennis, and X. You, “Content Popularity Prediction in Fog-RANs: A   Bayesian Learning Approach,” IEEEGLOBECOM 2021,   Dec. 2021, pp. 1-6.

[13]    M. Zhang, Y. Jiang*, F.-C.   Zheng, M. Bennis, and X. You, “Cooperative Edge Caching via Federated Deep   Reinforcement Learning in Fog-RANs,” IEEE ICC 2021 Workshop,Jun.   2021, pp. 1-6.

[14]    X. Chen,Y.   Jiang*, B. Fan, F.-C. Zheng, D. Niyato, and X.   You, “Hierarchical Cooperative Caching in Fog Radio Access Networks: A Brain   Storm Optimization Approach,” IEEE   GLOBECOM 2020, Dec. 2020, pp. 1-6.

[15]    Y. Wu,Y.   Jiang*,   M. Bennis, F.-C. Zheng, X. Gao, and X. You, “Content Popularity Prediction in   Fog Radio Access Networks: A Federated Learning Based Approach,” IEEE ICC 2020, Jun. 2020, pp.   1-6.

[16]    J. Yan,Y.   Jiang*,   F.-C. Zheng,F. R. Yu, X.   Gao, and X. You, “Distributed Edge Caching with Content Recommendation   in Fog Radio Access Network via Deep Reinforcement Learning,” IEEE ICC 2020 Workshop, Jun.   2020,pp. 1-6.

[17]    B. Wang,Y.   Jiang*,   F.-C. Zheng,M. Bennis, X.   Gao, and X. You, “Joint Redundant MDS Codes and Cluster Cooperation Based   Coded Caching in Fog Radio Access Networks,” IEEE ICC 2020 Workshop,Jun.   2020, pp. 1-6.

[18]    C. Wan, Y.   Jiang*, F.-C. Zheng, P. Zhu, X.   Gao, and X. You, “Delay-Energy Efficiency Tradeoff in Fog Radio Access   Networks with Hybrid Caching,” IEEE   GLOBECOM 2019 Workshop, Hawaii, USA, Dec. 2019, pp. 1-6.

[19]    H. Feng, Y.   Jiang*, D. Niyato, F.-C. Zheng,   and X. You, “Content Popularity Prediction via Deep Learning in Cache-enabled   Fog Radio Access Networks,” IEEE   GLOBECOM 2019, Hawaii, USA, Dec. 2019, pp. 1-6.

[20]    C. Xia, Y.   Jiang*, M. Peng, F.-C. Zheng, M.   Bennis, and X. You, Cooperative Edge Caching in   Fog Radio Access Networks: A Pigeon Inspired Optimization Approach,IEEE GLOBECOM 2019, Hawaii, USA, Dec. 2019, pp. 1-6.

[21]    H. Ge, Y. Jiang*,   M. Bennis, F.-C. Zheng, and X. You, “Edge   Caching Resource Allocation in Fog Radio Access Networks: An Incentive   Mechanism based Approach,”IEEE ICC 2019 Workshop, Shanghai, China, May 2019, pp. 1-6.

[22]    A. Peng, Y. Jiang*, M. Bennis, F.-C. Zheng, and X. You, “Performance Analysis and Caching Design in Fog Radio Access   Networks,” IEEE GLOBECOM2018 Workshop, Abu   Dhabi, UAE, Dec. 2018, pp.1-6.

   [23] Y. Jiang*, M. Ma, M. Bennis, F.-C. Zheng, and X. You, “A Novel Caching Policy with Content Popularity Prediction and User Preference Learning in Fog-RAN,” IEEE GLOBECOM2017 Workshop, Singapore, Dec. 2017, pp. 1-6.


科研项目:

项目名称

项目类别

项目时间

工作类别

项目金额

6G超低时延超高可靠大规模无线传输技术

国家重点研发计划

项目

2021/12-2024/12

应用基础研究

XX

亚毫秒时延超可靠无线网络关键技术研究:实际数据测试

C9高校联合研究

项目

2022/1-2023/6

产学研

XX

雾无线接入网低时延高能效边缘缓存理论方法研究

国家自然科学基金

面上项目

2020/1-2023/12

应用基础研究

XX

高能效低延迟无线网络关键技术研究:实际数据测试

C9高校联合研究

项目

2019/6-2020/12

产学研

XX

雾无线接入网边缘缓存理论方法研究

江苏省自然科学基金面上项目

2018/7-2021/6

应用基础研究

XX

雾无线接入网边缘缓存关键理论与技术研究

中科院重点实验室

开放课题

2018/3-2020/2

应用基础研究

XX

雾无线接入网边缘缓存关键技术研究

国家重点实验室

开放课题

2018/3-2020/2

应用基础研究

XX

5G移动通信系统NGFI关键技术研究

国际知名通信企业

联合研究项目

2016/2-2018/2

产学研

XX

5G新型调制编码与高效链路技术研究开发

国家863计划项目

2015/1-2017/4

应用基础研究

XX

超蜂窝网络协作机制与资源优化方法

国家973计划

重大项目

2012/1-2016/10

应用基础研究

XX

蜂窝移动通信系统终端直通技术研究

国家科技重大专项

2012/1-2014/6

应用基础研究

XX

IMT-Advanced中继技术研发

国家科技重大专项

2009/1-2012/12

应用基础研究

XX