權偉

教育背景

• 北京郵電大學，網絡技術研究院，通信與信息系統，博士學位

工作經歷

• 2021-12至今，教授、博士生導師，北京交通大學，電子信息工程學院、移動專用網絡國家工程研究中心、新型網絡系統研究所副所長
• 2018-12至2021.-12，副教授、博士生導師，北京交通大學，電子信息工程學院、下一代互聯網互聯設備國家工程實驗室
• 2017-10至2018-09，訪問學者，加拿大滑鐵盧大學，電氣與計算機工程學院
• 2014-08至2018-11，講師，北京交通大學，電子信息工程學院、下一代互聯網互聯設備國家工程實驗室
• 2014-08至2016-08，博士後，北京交通大學，電子信息工程學院、下一代互聯網互聯設備國家工程實驗室

研究方向

• 信息網絡理論及關鍵技術
• 通信工程

招生專業

• 信息與通信工程碩士
• 通信工程碩士
• 信息與通信工程博士

科研項目

• 國家重點研發計劃-任務: 基於服務的開放網絡架構研究與驗證, 2019-2020
• 紅果園國家級科技委、後勤保障項目（不再立新項目）: XX網絡系統研究與驗證-協同安全傳輸機制, 2018-2021
• 基本科研業務費自由申報項目: 基於深度學習的SDN智慧融合控制機制研究, 2019-2023
• 紅果園國家級科技委、後勤保障項目（不再立新項目）: 自主網絡服務控制協議設計與驗證, 2017-2021
• 國家重點研發計劃: ICT一體化5G開放網絡架構研究, 2017-2018
• 紅果園省部級"四總部": 自主互聯網標識映射查詢協議標準研製與驗證, 2014-2020

教學科目

• 本科生課程：《數據結構》、《基於ACM平台編程訓練》
• 研究生課程：《電子信息專業外語》

論文/期刊

1. 許長橋,權偉,張宏科,Grieco.GrIMS: Green Information-Centric Multimedia Streaming Framework in Vehicular Ad Hoc Networks.IEEE Transactions on Circuits and Systems for Video Technology,2018,2(28)
2. 劉剛,權偉,Cheng,張宏科,Shen.VLI: Variable-Length Identifier for Interconnecting Heterogeneous IoT Networks.IEEE Wireless Communications Letters,2020,8(9)
3. Chen,Ye,權偉,Yan,Do,Zhuang,Shen,Li,Rao.SDATP: An SDN-Based Adaptive Transmission Protocol for Time-Critical Services.IEEE Network,2019,3(34)
4. 權偉,崔恩放,張宏科.多源協作的傳輸控制機制.電子學報,2018,10(46)
5. 權偉,承楠,秦猛,張宏科,Chan,Shen.Adaptive Transmission Control for Software Defined Vehicular Networks.IEEE WIRELESS COMMUNICATIONS LETTERS,2019,3(8)
6. 劉楊,權偉,Tian,Yu.Delay-Constrained Utility Maximization for Video Ads Push in Mobile Opportunistic D2D Networks.IEEE INTERNET OF THINGS JOURNAL,2018,5(5)
7. 張珊,權偉,李俊玲,時偉森,楊鵬,Shen.Air-Ground Integrated Vehicular Network Slicing With Content Pushing and Caching.IEEE JOURNAL ON SELECTED AREAS IN COMMUNICATIONS,2018,9(36)
8. 張宇明,馮博昊,權偉,李光磊,周華春,張宏科.Theoretical Analysis on Edge Computation Offloading Policies for IoT Devices.IEEE Internet of Things Journal,2019,6(3)
9. 張宏科,馮博昊,權偉.智融標識網絡基礎研究.電子學報,2019,47(5)
10. 張宏科,權偉,宋佳陽,蔣仲白,Yu.Link State Prediction based Reliable Transmission for High-Speed Railway Networks.IEEE Transactions on Vehicular Technology,2016,12(65)
11. 權偉,劉亞娜,張宏科,Yu.Enhancing Crowd Collaborations for Software Defined Vehicular Networks.IEEE Communications Magazine,2017,8(55)
12. 權偉,張宏科.未來互聯網體系的研究現狀、熱點與探索實踐.中國科學:信息科學,2017,6(47)
13. 張宏科,董平,權偉,BinHU.Promoting Efficient Communications for High-Speed Railway Using Smart Collaborative Networking.IEEE Wireless Communications,2015,22(6)
14. 張宏科,董平,權偉,Hu.Promoting Efficient Communications for High Speed Railway using Smart Collaborative Networking.IEEE Wireless Communications,2015,6(22)

[1] W. Quan, C. Xu*, J. Guan, et al. Social cooperation for information-centric multimedia streaming in highway VANETs. IEEE International Symposium on a World of Wireless Mobile and Multimedia Networks 2014, 2014: 1-6. [2] W. Quan, C. Xu*, J. Guan, et al. Scalable Name Lookup with Adaptive Prefix Bloom Filter for Named Data Networking. IEEE Communications Letters, 2014, 18(1): 102-105. [3] W. Quan, C. Xu*, A. V. Vasilakos, et al. TB2F: Tree-bitmap and bloom-filter for a scalable and efficient name lookup in Content-Centric Networking. 2014 IFIP Networking Conference, 2014: 1-9. 2015： [4] H. Zhang, P. Dong, W. Quan, et al. Promoting Efficient Communications for High-Speed Railway Using Smart Collaborative Networking. IEEE Wireless Communications, 2015, 22(6): 92-97. 2016： [5] H. Zhang, W. Quan*, J. Song, et al. Link State Prediction-Based Reliable Transmission for High-Speed Railway Networks. IEEE Transactions on Vehicular Technology, 2016, 65(12): 9617-9629. [6] H. Zhang, W. Quan*, H. Chao, et al. Smart identifier network: A collaborative architecture for the future internet," in IEEE Network, vol. 30, no. 3, pp. 46-51, May-June 2016, doi: 10.1109/MNET.2016.7474343. 2017： [7] W. Quan, Y. Liu, H. Zhang, et al. Enhancing Crowd Collaborations for Software Defined Vehicular Networks. IEEE Communications Magazine, 2017, 55(8): 80-86. [8] Xu C*, Quan W, Vasilakos A V, et al. Information-centric cost-efficient optimization for multimedia content delivery in mobile vehicular networks[J]. Computer Communications, 2017, 99: 93-106. [9] 權偉*, 張宏科*. 未來互聯網體系的研究現狀、熱點與探索實踐,中國科學:信息科學, 2017, 47(6): 804-810. 2018： [10] W. Quan, K. Wang*, Y. Liu, et al. Software-Defined Collaborative Offloading for Heterogeneous Vehicular Networks. Wireless Communications and Mobile Computing, 2018: 1-9. [11] W. Quan*, N. Cheng, P. Jing, et al. VeData: Promoting AI Assisted Autonomous Vehicles. The 24th Annual International Conference on Mobile Computing and Networking (MobiCom '18), 2018. [12] C. Xu, W. Quan*, H. Zhang, et al. GrIMS: Green Information-Centric Multimedia Streaming Framework in Vehicular Ad Hoc Networks. IEEE Transactions on Circuits and Systems for Video Technology, 2018, 28(2): 483-498. [13] S. Zhang, W. Quan, J. Li, W. Shi, P. Yang* and X. Shen, "Air-Ground Integrated Vehicular Network Slicing With Content Pushing and Caching," in IEEE Journal on Selected Areas in Communications, vol. 36, no. 9, pp. 2114-2127, Sept. 2018, doi: 10.1109/JSAC.2018.2864425. [14] K. Wang, H. Yin*, W. Quan, et al. Enabling Collaborative Edge Computing for Software Defined Vehicular Networks. IEEE Network, 2018, 32(5): 112-117. [15] 權偉, 崔恩放, 張宏科. 多源協作的傳輸控制機制, 電子學報, 2018, 46(10): 2527-2533. 2019： [16] W. Quan, N. Cheng*, M. Qin, et al. Adaptive Transmission Control for Software Defined Vehicular Networks. IEEE Wireless Communications Letters, 2019, 8(3): 653-656. [17] N. Cheng, F. Lyu, W. Quan*, et al., "Space/Aerial-Assisted Computing Offloading for IoT Applications: A Learning-Based Approach," in IEEE Journal on Selected Areas in Communications, vol. 37, no. 5, pp. 1117-1129, May 2019, doi: 10.1109/JSAC.2019.2906789. [18] G. Liu, W. Quan*, N. Cheng, et al. Efficient DDoS attacks mitigation for stateful forwarding in Internet of Things. Journal of Network and Computer Applications, 2019, 130: 1-13. 2020： [19] N. Cheng, W. Quan*, W. Shi, et al. A Comprehensive Simulation Platform for Space-Air-Ground Integrated Network. IEEE Wireless Communications, 2020, 27(1): 178-185. [20] G. Liu, W. Quan*, N. Cheng, et al. P4NIS: Improving network immunity against eavesdropping with programmable data planes. IEEE INFOCOM WKSHPS, 2020: 91-96. [21] M. Zhang, Y. Zhou, W. Quan*, et al. Online Learning for IoT Optimization: A Frank–Wolfe Adam-Based Algorithm. IEEE Internet of Things Journal, 2020, 7(9): 8228-8237. [22] J. Chen, Q. Ye*, W. Quan, et al. SDATP: An SDN-Based Traffic-Adaptive and Service-Oriented Transmission Protocol. IEEE Transactions on Cognitive Communications and Networking, 2020, 6(2): 756-770. 2021： [23] G. Liu, W. Quan*, N. Cheng, et al. Softwarized IoT Network Immunity Against Eavesdropping With Programmable Data Planes. IEEE Internet of Things Journal, 2021, 8(8): 6578-6590. 2022： [24] W. Quan, M. Liu*, N. Cheng, X. Zhang, D. Gao and H. Zhang, "Cybertwin-driven Adaptive Transmission Scheduling for Software Defined Vehicular Networks," in IEEE Transactions on Vehicular Technology, doi: 10.1109/TVT.2022.3151750.

專著/譯著

• Smart Collaborative Identifier Network: A Promising Design of Future Internet,2016,Springer-Verlag Berlin Heidelberg