2016.9-2021.3 太阳成集团网址太阳成集团tyc151cc 通信与信息系统 工学博士
2018.10-2020.10 英国伦敦玛丽女王大学电子工程和计算机科学学院联合培养两年
2013.9-2016.7 太阳成集团网址太阳成集团tyc151cc 通信与信息系统 工学硕士
2009.9-2013.7 长春理工大学太阳成集团tyc151cc 通信工程 工学学士
- 理论研究方向:5G/6G无线通信系统、智能超表面、下一代多址接入, 无人机通信。在上述方向,共计发表论文百余篇,以第一/通讯作者发表IEEE期刊论文40余篇,其中ESI高被引论文3篇+ESI热点论文1篇。
- 工程研究方向:毫米波数字信号处理技术和定向宽带数据组网数据链技术,主持和参与多项国家级和省部级军工项目。
- 课题组包括1名教授和4名副教授。
- 招生:每年招收8-10名硕士、1-2名博士研究生,有意向保研、直博的学生请提前和我联系(隶属电信学院无线二组/宽带通信研究所)
课题组可分为:1)理论组:主要面向未来无线通信(B5G和6G)中的前沿技术(如下一代多址接入、RIS、ISAC等)进行基础理论研究,主要研究成果是发表高水平论文。
2)硬件组:主要关注硬件电路的设计工作,理解原理图、PCB和电路结构的设计和测试。
3)物理层:主要关注物理层设计,例如FPGA程序设计,实现通信信号的信源编码/解码、信道编码/解码、信道调制/解调等。
4)数据链路层:主要关注数据链路层设计,例如ARM程序设计,实现通信协议和信号的浮点运算等。
- 实习:欢迎有科研兴趣的本科生来实验室实习(包括但不限于参加大创等)
- 毕业去向:指导的研究生/本科生毕业生去向包括:工作(航天一院、航天二院、航天三院、航天五院、中国移动、百度、字节跳动等)、出国深造(伦敦玛丽女王大学等)
- 实验室氛围:实验室文化极为团结,经常组织各种活动,定期组织大团队聚餐和小组聚餐。不定期组织小球类运动,包括羽毛球和网球等,欢迎各位同学积极参加。
- 对外交流:团队为优秀学生提供参加国际会议和联合培养等交流机会,有机会推荐到德国埃尔朗根-纽伦堡大学、英国南安普顿大学、伦敦玛丽大学、曼彻斯特大学、加拿大麦吉尔大学等。
- 欢迎有志于攻读硕士、博士研究生和出国深造的同学联系。
已毕业学生:
博士
1. 靳文鑫 (2023届博士毕业,导师:孙昕,合作指导,中国电力研究院,一作GPS Solution两篇+一作中国导航年会一篇)
硕士
1. 赵起超 (2023届硕士毕业,导师:龚文飞,合作指导,中国船舶集团第707研究所,一作IEEE GlobalCom一篇+一作IEEE VTC一篇)
2. 李洁(2024届硕士毕业,导师:宋政育,合作指导,中国移动设计院,一作IEEE TCOM一篇、一作IEEE TGCN一篇、一作IEEE GlobalCom一篇+二作北邮学报一篇)
3. 刘晏嘉(2024届硕士毕业,导师:龚文飞,合作指导,中国工商银行数据中心,一作EI会议一篇)
4. 张征(2025届硕士毕业,导师:刘章发,合作指导,朝阳区人力资源公共服务中心)
5. 汪强(2025届硕士毕业,导师:骆丽,合作指导,,一作IEEE IoTJ一篇、一作IEEE ICCC一篇,北京科技大学)
2021.4-迄今 太阳成集团网址太阳成集团tyc151cc 通信与信息系统 副教授
主持项目累计经费600余万,参与项目累计经费1700余万
人才项目:
1. 中国科协“青年人才托举”项目,2022-2026,主持,30万
2. 欧盟“玛丽居里学者”项目,2023-2025,主持,150万
理论类:
3. 国家自然科学基金青年项目:智能超表面信号增强和干扰抑制方法的研究,2023-2025,主持,30万
4. 自然科学类人才基金项目: 通信感知一体化新技术的研究, 2021-2023,主持,30万
5. 基础科研业务费重点项目:STAR-RIS 同步信号增强和干扰抑制关键技术的研究, 2023-2026,主持,20万
教改类:
6. 教育部教指委项目:融入思政元素的电子信息类理论和实验课程研究与探索,主持,0.5万
7. 教育部协同育人项目:电工电子教师施政教育和实验案例培训,主持,2万
8. 太阳成集团网址教改项目:课程思政赋能的模拟电子技术课程教学策略,主持,1万
工程类:
9. 红果园(横): 低轨卫星信号分析处理及告警软件, 2023-2024,主持,175万
10. 红果园(横): 高轨信号链路计算仿真程序研制, 2022-2023,主持,19万
11. 红果园(横): 高轨载体监控测试软件开发, 2022-2022,主持,15万
12. 红果园省部级"企事业"(新): XX系统软件需求调研、设计与数据库搭建, 2022-2023,主持,46.2万
13. 红果园省部级"企事业"(新): D间通信协议开发, 2021-2026,主持, 80万
14. 红果园国家级“科技委”: 基于XXX的XXX定位技术, 2022-2024,参与,480万
15. 红果园(横): 基于扩跳频体制的通信阵列天线抗干扰技术研究, 2023-2026,参与,510万
16. 自然科学横向项目: EPDT项目及ADR团体标准推进合作开发, 2023-2027,参与,250万
17. 红果园省部级"企事业"(新): XXX网络仿真测试, 2023-2023,参与,34万
18. 国家重点研发计划-任务:多交通主体互操作导向的可信通信多需求分析与信息安全组网构建,2022-2024,参与,100万
19. 自然科学横向项目: 侦干拉远设备地面控制软件开发, 2023-2026,参与,45万
20. 红果园国家级"四总部": XX无线电台一阶段—智能XX及XX技术, 2022-2023,参与,10.24万
21. 红果园省部级"企事业"(新): 轻量化信息服务模型开发, 2022-2023,参与,48万
22. 红果园省部级"企事业"(新): 分布式自组网时基同步技术开发, 2022-2025,参与,23.2万
23. 红果园省部级"企事业"(新): 信号激励器开发, 2022-2026,参与,20万
24. 国家重点研发计划-任务: 基于船岸协同的船舶智能航行与控制关键技术/智能航行支持保障关键技术与系统研发, 2019-2022,参与, 80万
25. 红果园(横): 某数据帧加解扰软件研制合同, 2020-2022,参与, 20万
26. 红果园(横): PDT协议分析仪, 2021-2025,参与,19.8万
27. 自然科学横向项目: 多信道P波段接收机技术开发, 2021-2025,参与,30万
28. 红果园国家级"四总部": 基于卫导的小口径旋转导弹定位方法与滚转姿态检测技术, 2020-2023,参与,12万
29. 专利许可项目: 一种警用数字集群系统间互联互通的测试系统和方法专利许可, 2021-2022,参与, 10万
30. 红果园省部级"企事业"(新): 超宽带信号检测技术, 2021-2027,参与, 46.1万
主讲教师
Ø 太阳成集团网址
大学生实用写作 2021-2022学年,第二学期
模拟电子技术 2022-2023学年,第二学期
大学生实用写作 2022-2023学年,第二学期
助教
Ø 太阳成集团网址
电磁波 2022,春季学期
信息论 2022,春季学期
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论文及专著(共计引用3400,h指数17,i10指数19) |
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ESI高被引、热点论文: [1] T. Hou, Y. Liu, Z. Song, X. Sun, Y. Chen and L. Hanzo, ‘‘Reconfigurable Intelligent Surface Aided NOMA Networks’’, IEEE Journal on Selected Area on Communication, vol. 38, no. 11, pp. 2575-2588, Nov. 2020. (An1区,引用量:309,ESI高被引论文) [2] T. Hou, Y. Liu, Z. Song, X. Sun, and Y. Chen, ‘‘Multiple antenna aided NOMA in UAV networks: A stochastic geometry approach’’, IEEE Transactions on Communications, vol. 67, no. 2, pp. 1031–1044, Feb. 2019.(An1区,引用量:172,ESI高被引论文) [3] Y. Liu, X. Liu, X. Mu, T. Hou, J. Xu, Z. Qin, M. Di Renzo, N. Al-Dhahir, “Reconfigurable intelligent surfaces: Principles and opportunities”, IEEE Survey and Tutorial, vol. 23, no. 3, pp. 1546-1577, May 2021。(An1区,引用量:953,ESI高被引论文+ESI热点论文)
已发表的论文: 2025: [1] Qin X, Yu W, Ni Q, et al. Joint Resource Allocation and Beamforming Design for BD-RIS-Assisted Wireless-Powered Cooperative Mobile Edge Computing[J]. IEEE Communications Letters, 2025. [2] Hou T, Guan D, Sun X, et al. STAR-RIS Aided INAC in Urban Canyon Scenarios[C]. 2025 IEEE Wireless Communications and Networking Conference (WCNC). IEEE, 2025: 1-6. [3] Huangfu J, Song Z, Hou T, et al. Performance Analysis of Fluid Antenna System under Spatially-Correlated Rician Fading Channels[J]. arXiv preprint arXiv:2505.15200, 2025. [4] Li J, Song Z, Hou T, et al. STAR-RIS Assisted MISO-NOMA Networks: A Simultaneous Signal Enhancement and Interference Mitigation Design[J]. IEEE Transactions on Communications, 2024. [5] Gao X, Hou T, Shin H, et al. LoC-WiFi-SLAM: Low-Complexity of WiFi-Enhanced SLAM[J]. IEEE Transactions on Communications, 2025. [6] Hou T, Song Z, Wang J, et al. Federated Learning aided LEO Satellite Communications: A Distributed Beamforming Approach[J]. IEEE Internet of Things Journal, 2025. [7] Li K, Wang J, Hou T, et al. Performance analysis of OMA/NOMA-aided satellite communication networks: A stochastic geometry approach[J]. IEEE Transactions on Communications, 2024. [8] [16] Hou T, Liu Y, Nallanathan A. On the performance of uplink pinching antenna systems (PASS)[J]. arXiv preprint arXiv:2502.12365, 2025.
2024: [9] J Li, Z Song, T Hou*, J Gao, A Li, Z Tang, “An RIS-aided Interference Mitigation based Design for MIMO-NOMA in Cellular Networks”, IEEE Transactions on Green Communications and Networking,vol. 8, no. 1, pp. 317-329, March 2024. (An2区) [10] Anna Li, Eliane Bodanese, Stefan Poslad, Zhao Huang, Tianwei Hou, Kaishun Wu, Fei Luo, "An Integrated Sensing and Communication System for Fall Detection and Recognition Using Ultrawideband Signals," IEEE Internet of Things Journal, vol. 11, no. 1, pp. 1509-1521, 1 Jan, 2024. [11] 侯天为、霍炎、白双、王俊、宋政育,“思政元素融入电子技术课程的教学实践”,电气电子教学学报,已接收。 [12] Liu, Gang and Quan, Wei and Cheng, Nan and Liu, Mingyuan and Tong, Jiangang and Han, Jingyuan and Hou, Tianwei and Yu, Chengxiao, "E-Chain: Lightweight and Secure BIoT Voting Mechanism on Variable Bandwidth Networks," IEEE Internet of Things Journal, doi: 10.1109/JIOT.2023.3323293. [13] Li, Anna and Bodanese, Eliane and Poslad, Stefan and Chen, Penghui and Wang, Jun and Fan, Yonglei and Hou, Tianwei, "A Contactless Health Monitoring System for Vital Signs Monitoring, Human Activity Recognition and Tracking," in IEEE Internet of Things Journal,已接收。 [14] X. Yue, M. Song, C. Ouyang, Y. Liu, T. Li and T. Hou, "Exploiting Active RIS in NOMA Networks with Hardware Impairments," in IEEE Transactions on Vehicular Technology,2024, 73(6): 8207-8221. [15] Li X, Lian X, Yue X, et al. Performance analysis of double reconfigurable intelligent surfaces assisted NOMA networks[J]. IEEE Transactions on Vehicular Technology, 2024. [16] Cheng Y, Chen W, Hou T, et al. Learning Rate-Compatible Linear Block Codes: An Auto-Encoder Based Approach[J]. IEEE Transactions on Vehicular Technology, 2024. [17] Huang R, Ji F, Wan D, et al. Transceiver Design and Performance Evaluation for Multi-user MISO Broadcast Channels with NOMA: Diversity, Multiplexing, or Both?[J]. IEEE Internet of Things Journal, 2024. [18] 秦鑫彤,宋政育,侯天为等.基于自适应p持续的移动自组网信道接入和资源分配算法[J/OL].计算机应用 2024, 44(3):1-7. [19] Liu, Xuliang, Xinwei Yue, Zhiping Lu, and Tianwei Hou. "Performance Analysis of ARIS-NOMA Systems under Cascade Rician Channels." Symmetry 16, no. 3 (2024): 321. [20] 侯天为;李洁;王俊;宋政育;孙昕;李安娜,“基于非正交多址接入的同步透射反射智能超表面信号增强算法的研究”,北邮学报,47.1 (2024): 7. [21] Hou T, Mu X, Ding Z, et al. Guest Editorial Special Issue on Next-Generation Multiple Access for Internet of Things[J]. IEEE Internet of Things Journal, 2024, 11(17): 27876-27880. [22] Li X, Lian X, Yue X, et al. Performance analysis of double reconfigurable intelligent surfaces assisted NOMA networks[J]. IEEE Transactions on Vehicular Technology, 2024. [23] Li J, Song Z, Hou T, et al. Dual-Side STAR-RIS Assisted NOMA Networks[C]. 2024 Global Com. [24] Wan Y, Hu Y, Li X, et al. Improved Algorithm of Elevator Blocking System Based on YOLOv8[C]. 2024 12th International Conference on Information Systems and Computing Technology (ISCTech). IEEE, 2024: 1-5. [25] Xie S, Shi J, Li H, et al. A DDPG Algorithm Aided STAR-RIS NOMA Network[C]. 2024 12th International Conference on Information Systems and Computing Technology (ISCTech). IEEE, 2024: 1-6. [26] Liang S, Chen W, Sun X, et al. Convolutional Deep Unfolding Network for Asynchronous Active User Detection and Channel Estimation[C]. 2024 16th International Conference on Wireless Communications and Signal Processing (WCSP). IEEE, 2024: 1193-1198. [27] Sun Z, Chen W, Sun Y, et al. Deep learning-based grant-free massive access with age-of-information minimization[C]. 2024 IEEE 34th International Workshop on Machine Learning for Signal Processing (MLSP). IEEE, 2024: 1-6.
2023: [28] T. Hou and A. Li, “Performance Analysis of NOMA-RIS aided Integrated Navigation and Communication (INAC) Networks”, IEEE Transactions on Vehicular Technology, vol. 72, no. 10, pp. 13255-13268, Oct. 2023. (An2区) [29] Jin W., Gong W., Hou T., Sun X., Ma H. (2024). GNSS Carrier Phase Heading Determination with a Single Array Antenna. In: Yang, C., Xie, J. (eds) China Satellite Navigation Conference (CSNC 2024) Proceedings. CSNC 2024. Lecture Notes in Electrical Engineering, vol 1094. Springer, Singapore. [30] A. Li, T. Hou, J. Gao, J. Wang, X. Xu and Z. Song, "Integrated Navigation and Communication (INAC) Networks: A NOMA-RIS aided Approach," 2023 IEEE 23rd International Conference on Communication Technology (ICCT), Wuxi, China, 2023, pp. 1596-1601. [31] Gao, Jiazi, et al. "A Novel Single-Station Tracking Algorithm towards High-Dynamic Targets in 3D Space." Proceedings of the 2023 13th International Conference on Communication and Network Security. 2023. [32] Dai, G.; Huang, R.; Yuan, J.; Hu, Z.; Chen, L.; Lu, J.; Fan, T.; Wan, D.; Wen, M.; Hou, T.; et al. Towards Flawless Designs: Recent Progresses in Non-Orthogonal Multiple Access Technology. Electronics 2023, 12, 4577. [33] M. Song, X. Yue, C. Ouyang, Y. Liu, T. Li and T. Hou, “Outage Performance of Active RIS in NOMA Networks over Nakagami-m Fading Channels,” 2023 IEEE 98th Vehicular Technology Conference (VTC2023-Fall), Hong Kong, 2023, pp. 1-6. [34] G. Li, T. Li, X. Yue, T. Hou, B. Dai, “High Reliable Uplink Transmission Methods in GEO–LEO Heterogeneous Satellite Network”. Appl. Sci. 2023, 13, 8611. [35] W. Jin, W. Gong, T. Hou, X. Sun, H. Ma. A Relative Field Antenna Calibration Method Designed for Low-Cost GNSS Antennas by Exploiting Triple-Differenced Measurements. Remote Sensing. 2023,15, 3917. (An2区) [36] Q. Zhao, W. Gong, T. Hou, X. Sun, A. Li and E. Bodanese, "Integrated-Navigation-and-Communication (INAC): A Reconfigurable Intelligent Surface (RIS)-aided Approach," 2023 IEEE 97th Vehicular Technology Conference (VTC2023-Spring), Florence, Italy, 2023, pp. 1-6. [37] Xintong Qin, Zhengyu Song, Tianwei Hou, Wenjuan Yu, Jun Wang, and Xin Sun, “Joint Optimization of Resource Allocation, Phase Shift and UAV Trajectory for Energy-Efficient RIS-Assisted UAV-Enabled MEC Systems”, IEEE Transactions on Green Communications and Networking, vol. 7, no. 4, pp. 1778-1792, Dec. 2023. [38] W Jin, W Gong, T Hou*, X Sun, H Ma “A dual-antenna heading determination method for single-frequency GNSS antennas with large phase pattern variations”, GPS Solutions, 27 (2), 96. [39] Xintong Qin, Zhengyu Song, Tianwei Hou, Wenjuan Yu, Jun Wang, and Xin Sun, “Joint Resource Allocation and Configuration Design for STAR-RIS-Enhanced Wireless-Powered MEC”, IEEE Transactions on Communications, vol. 71, no. 4, pp. 2381-2395.
2022: [40] W Jin, W Gong, X Sun, T Hou, “Orientation determination with an array antenna by exploiting its phase pattern characteristics”, GPS Solutions, 2022, 27 (1), 1-15. (An1区) [41] T. Hou, Y. Liu, Z. Song, X. Sun, Y. Chen and L. Hanzo, ‘‘MIMO assisted networks relying on intelligent reflective surfaces: A stochastic geometry based analysis’’, IEEE Transactions on Vehicular Technology, IEEE Transactions on Vehicular Technology, vol. 71, no. 1, pp. 571-582, Jan. 2022. (An2区,引用量:80) [42] T Hou, J Wang, Y Liu, X Sun, A Li, B Ai, ‘‘A Joint Design for STAR-RIS enhanced NOMA-CoMP Networks: A Simultaneous-Signal-Enhancement-and-Cancellation-based (SSECB) Design’’, IEEE Transactions on Vehicular Technology, vol. 71, no. 1, pp. 1043-1048, Jan. 2022. (An2区,引用量:10) [43] Z. Song, X. Qin, Y. Hao, T. Hou*, J. Wang and X. Sun, “A comprehensive survey on aerial mobile edge computing: Challenges, state-of-the-art, and future directions.” Computer Communications, 2022. (An3区) [44] A. Li, E. Bodanese, S. Poslad, T. Hou, K. Wu and F. Luo, "A Trajectory-based Gesture Recognition in Smart Homes based on the Ultra-Wideband Communication System," IEEE Internet of Things Journal, vol. 9, no. 22, pp. 22861-22873, 15 Nov.15, 2022. [45] Z. Tang, T. Hou, Y. Liu, J. Zhang and L. Hanzo, "Physical Layer Security of Intelligent Reflective Surface Aided NOMA Networks," IEEE Transactions on Vehicular Technology, vol. 71, no. 7, pp. 7821-7834, Jul. 2022. (An2区,引用量:15) [46] H. Ma, J. Wang, X. Sun, T. Hou and W. Jin, “Joint Radar-Communication Relying on NLFM-MSK Design” Wireless Communications and Mobile Computing, 2022. (An4区) [47] Qichao Zhao, Wenfei Gong, Tianwei Hou, Xin Sun, and Eliane Bodanese, “Global Navigation Satellite System (GNSS): A Reconfigurable Intelligent Surface (RIS)-aided Approach”, 2022 IEEE Global Communication conference, Dec. 2022, Rio De Janeiro, Brazil. [48] Xintong Qin, Yuanyuan Hao, Zhengyu Song, Tianwei Hou, and Xin Sun, “Computation Rate Optimization for STAR-RIS-Enhanced Wireless-Powered MEC”, 2022 IEEE Global Communication conference, Dec. 2022, Rio De Janeiro, Brazil. [49] Jie Li, Zhengyu Song, Tianwei Hou, Xin Sun, Anna Li, and Eliane Bodanese, “An RIS-enhanced signal-cancellation design for multi-cell networks”, 2022 IEEE Global Communication conference, Dec. 2022, Rio De Janeiro, Brazil. [50] Xintong Qin, Wenjuan Yu, Zhengyu Song, Tianwei Hou, Yuanyuan Hao, and Xin Sun, “Energy Efficiency Optimization for RIS-Assisted UAV-Enabled MEC Systems”, 2022 IEEE Global Communication conference, Dec. 2022, Rio De Janeiro, Brazil. [51] Anna Li, Eliane Bodanese, Stefan Poslad, Tianwei Hou, Fei Luo, Kaishun Wu, “Trajectory-based Fall Detection and Recognition Using Ultra-Wideband Signals”, 2022 IEEE Global Communication conference, Dec. 2022, Rio De Janeiro, Brazil. [52] Yanjia Liu, Wenfei Gong, Tianwei Hou, Xin Sun, Zhengyu Song and Meinan Zhong, “A Simple Design of MOSAIC-NOMA Transmission”, The 10th International Conference on Information Systems and Computing Technology, Dec. 2022, Guilin, China. [53] Da Guan, Xin Sun, Jun Wang and Tianwei Hou, “RIS-NOMA-aided LEO Satellite Communication Networks”, The 10th International Conference on Information Systems and Computing Technology, Dec. 2022, Guilin, China.
2021: [54] Z. Tang, T. Hou, Y. Liu, J. Zhang, L. Hanzo, “A Novel Design of RIS for Enhancing the Physical Layer Security of RIS-aided NOMA Network”, IEEE Wireless Communications Letters, vol. 10, no. 11, pp. 2398-2401, Aug. 2021. (An2区,引用量:15) [55] Y. Liu, X. Liu, X. Mu, T. Hou, J. Xu, Z. Qin, M. Di Renzo, N. Al-Dhahir, “Reconfigurable intelligent surfaces: Principles and opportunities”, IEEE Survey and Tutorial, vol. 23, no. 3, pp. 1546-1577, May 2021。(An1区,引用量:687,ESI高被引) [56] Z Tang, T Hou, Y Liu, J Zhang,“Secrecy Performance Analysis for Reconfigurable Intelligent Surface aided NOMA Network,” 2021 IEEE International Conference on Communications Workshops (ICC). (EI论文) [57] A. Li, E. Bodanese, F. Luo, T. Hou and K. Wu, "The Ultra-Wideband Communication System: A Human Gesture Recognition Approach," 2021 IEEE 23rd Int Conf on High Performance Computing & Communications; 7th Int Conf on Data Science & Systems; 19th Int Conf on Smart City; 7th Int Conf on Dependability in Sensor, Cloud & Big Data Systems & Application (HPCC/DSS/SmartCity/DependSys), 2021, pp. 825-830, doi: 10.1109/HPCC-DSS-SmartCity-DependSys53884.2021.00133. (EI论文) [58] 侯天为,龚文飞,赵起超等.基于小数量贴片天线的信号波达方向测试方法[J].传感器世界,2021,27(09):21-28.
2020: [59] T. Hou, Y. Liu, Z. Song, X. Sun and Y. Chen, ‘‘MIMO-NOMA Network Relying on Reconfigurable Intelligent Surface: A Signal Cancellation Based Design’’, IEEE Transactions on Communications, vol. 68, no. 11, pp. 6932-6944, Nov. 2020. (An1区,引用量:89) [60] T. Hou, Y. Liu, Z. Song, X. Sun, and Y. Chen, ‘‘UAV-to-Everything (U2X) Networks Relying on NOMA: A Stochastic Geometry Model’’, IEEE Transactions on Vehicular Technology,vol. 69, no. 7, pp. 7558-7568, July 2020. (An2区,引用量:21) [61] T. Hou, Y. Liu, Z. Song, X. Sun, and Y. Chen, ‘‘NOMA Enhanced Terrestrial and Aerial IoT Networks with Partial CSI’’, IEEE Internet of Things Journal, vol. 7, no. 4, pp. 3254-3266, Apr. 2020. (An1区,引用量:12) [62] T. Hou, Y. Liu, Z. Song, X. Sun, Y. Chen and L. Hanzo, ‘‘Reconfigurable Intelligent Surface Aided NOMA Networks’’, IEEE Journal on Selected Area on Communication, vol. 38, no. 11, pp. 2575-2588, Nov. 2020. (An1区,引用量:574,ESI高被引) [63] H. Ma, J. Wang, X. Sun, T. Hou, W. Jin, “Joint radar-communication relying on spread spectrum: a hybrid chaotic sequence design.” Wireless Communications and Mobile Computing, 2020. (An4区) [64] T. Hou, Y. Liu, Z. Song, X. Sun, Y. Chen, and J. Hou, ‘‘Performance Analysis for Large Intelligent Surfaces Enabled MIMO Networks’’, 2020 IEEE International Conference on Communications: ICC2020, Jun. 2020, Dublin, Ireland. (EI论文) [65] T. Hou, Y. Liu, Z. Song, X. Sun, Y. Chen, and J. Hou, ‘‘Massive NOMA Enhanced IoT Networks with Partial CSI’’, 2020 IEEE International Conference on Communications: ICC2020, Jun. 2020, Dublin, Ireland. (EI论文)
2019: [66] T. Hou, Y. Liu, Z. Song, X. Sun, and Y. Chen, ‘‘Exploiting NOMA for UAV Communications in Large-Scale Cellular Networks’’, IEEE Transactions on Communications, vol. 67, no. 10, pp. 6897-6911, Oct. 2019.(An1区,引用量:66) [67] T. Hou, Y. Liu, Z. Song, X. Sun, and Y. Chen, ‘‘Non-Orthogonal Multiple Access in Multi-UAV Networks’’, 2019 IEEE 90th Vehicular Technology Conference: VTC2019-Fall, Sept. 2019, Honolulu, Hawaii, USA. (EI论文) [68] T. Hou, Y. Liu, Z. Song, X. Sun, and Y. Chen, ‘‘Non-Orthogonal Multiple Access in Air-to-Everything (A2X) Networks’’, 2019 IEEE Global Conference: Globecom2019, Dec. 2019, Honolulu, Hawaii, USA. (EI论文)
2018: [69] T. Hou, Y. Liu, Z. Song, X. Sun, and Y. Chen, ‘‘Multiple antenna aided NOMA in UAV networks: A stochastic geometry approach’’, IEEE Transactions on Communications, vol. 67, no. 2, pp. 1031–1044, Feb. 2019.(An1区,引用量:157,ESI高被引) [70] T. Hou, X. Sun, and Z. Song, ‘‘Outage Performance for Non-Orthogonal Multiple Access With Fixed Power Allocation Over Nakagami-m Fading Channels’’, IEEE Communications Letters, vol. 22, no. 4, pp. 744–747, Apr. 2018.(An2区,引用量:66)
专著: [71] T. Hou, Y. Liu, X. Sun, ‘‘NOMA for UAV Communications’’, Book chapter: UAV Communications for 5G and Beyond, Wiley & Sons。
[72] 博士学位论文:《基于非正交多址接入的无人机通信系统性能的研究》(北京市优秀博士学位论文、太阳成集团网址优秀博士学位论文) [73] 硕士学位论文:《TETRA 数字集群综合测试仪无线发射指标测试功能的开发》 |
[1] T. Hou, Y. Liu, X. Sun, ‘‘NOMA for UAV Communications’’, Book chapter: UAV Communications for 5G and Beyond, Wiley & Sons。
[1] VDES数据网关与基站间接口软件,软件著作权
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