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朱秋明 教授 收藏 完善纠错
南京航空航天大学    电子信息工程学院
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个人简介

南京航空航天大学通信与信息系统博士,中国空空导弹研究院博士后,英国赫瑞瓦特大学访问学者,电子信息工程学院教授/系副主任。在IEEE TCOM/TAP/TCAS/IoT/Chinacom等高水平期刊发表论文120多篇,最佳会议论文3篇,中英文著作3部,PCT国际专利3项,中国发明专利40余项(转化5项),主编电子学会标准1项;承担英国EPSRC项目、国家自然科学基金重大科学仪器项目,国家自然科学基金重点项目、全军信息系统装备预研项目、江苏省自然科学基金、航空科学基金等基金项目20余项,企业合作项目30余项,研究成果应用于航天5院、航天8院、航天1院、中航612所、中电41所、中电54所和中电14所等多个型号装备,获得探月工程项目和火星探测项目感谢信。 研究成果获得IET全球创新奖1项,日内瓦发明展金奖,中国发明协会一等奖1项,国防技术发明二等奖1项,国防科技进步三等奖2项,全国商业科技进步二等奖1项,江苏省科技进步三等奖2项;江苏省研究生教育改革成果一等奖1项,南京航空航天大学教学成果奖一等奖1项,二等奖2项,六十周年校庆“天府特别奖教金”二等奖和教学优秀奖各1项;研究生实验室获评南航“五星研究生工作室”。 个人简历: 2013 – 2016,中国空空导弹研究院,博士后 2016 – 2017,英国Heriot-Watt University,访问学者 2018.6 – 2018.8,英国Heriot-Watt University,访问学者 2019.7 – 2019.9,英国Heriot-Watt University,访问学者 指导学生获奖: 1. 全国大学生电子设计竞赛优秀辅导教师,全国研究生电子设计竞赛优秀辅导教师,挑战杯金奖创新创业导师; 2. 指导本科生参加挑战杯/国电赛/省电赛/TI杯国电赛,获奖25项(挑战杯一等奖,国电赛一等奖); 3. 指导本科生国家级科创基金项目,6项; 4. 指导硕士生参加创青春/物联网大赛/研电赛/数学建模,获奖15项(创青春金奖,数学建模一等奖,物联网一等奖,研电赛一等奖); 5. 指导硕士生获得创新计划项目/实验室开发基金/创新基地基金,8项; 6. 指导硕士生获得国家奖学金6人,校优秀硕士论文6人; 7. 指导研究生实验室获评2020年南航“五星研究生工作室”; 8. 指导研究生国际会议最佳论文奖(Best Paper Awards)3项; 9. 指导研究生科技作品“Real-time MIMO Wireless Channel Emulation System”参展顶级国际通信学术会议IEEE ICC 2019; 10. 指导研究生论文“Real-time MIMO Wireless Channel Emulation SystemAn UAV-based 3D Spectrum Real-time Mapping System”入选计算机领域CCF A类国际学术会议INFOCOM 2022; 承担的科研项目情况: 主研国家重大科学仪器设备专项,国家自然科学基金重点项目等20余项,企事业合作课题30余项,科研到款1200多万。 1. 无人机频谱认知仪,国家自然科学基金重大科学仪器项目,副组长,2019.1-2023.12 2. 广域动态频谱态势基础理论与关键技术研究,国家自然科学基金重点项目,子课题负责人,2017.1-2021.12 3. 微波矢量信号发生器研制与应用,国家重大科学仪器设备开发专项,子课题负责人,2013.10-2018.10 4. 模型数据双驱动的无人机全三维信道建模研究,东南大学移动通信国重实验室基金,主持,2022.1-2023.12 5. 无人机对地毫米波窄束非平稳信道建模研究,江苏省自然科学基金,主持,2021.7-2024.6 6. 机载机电设备5G信号传输能力研究,航空科学基金重点项目,单位负责人,2020.10-2023.9 7. 天地一体化智能电磁频谱认知,中国航天×院,主持,2021.6-2021.12 8. 无线信道测量建模研究,装备预研项目,单位负责人,2019.12-2021.6 9. 网络信道建模和高效模拟技术研究,国防重点实验室基金,主持,2019.12-2020.12 10. 基于几何地理的快变双移动信道建模研究,国家重点实验室基金,主持,2019.10-2020.9 11. 毫米波数据链通信网络信道建模研究,航空科学基金,主持,2019.10-2021.9 12. 无人机非平稳时变信道建模研究,中央高校基本科研业务费青年科技创新基金,主持,2020.1-2021.12 13. 短波信道仿真及通信频率预报软件,乌鲁木齐监测站,主持,2019.5-2020.12 14. 深空星间链路射频信道模拟器,中国航天×院,主持,2017.12-2019.6 15. 多元定向信道和抗干扰性能测试,中航工业×所,副组长,2016.10-2018.9 16. 月面通信信道仿真及综合分析软件,中国航天×院,副组长,2013.9-2014.4 科研项目 [1] 多径遥测模拟器 [2] 基于几何地理的快变双移动信道建模及参数估计 [3] 黑方产品注册统计模块开发 [4] 航空环境无线信道建模及模拟软件开发 [5] UHF通信机临近空间通信协议 [6] 实时多制式基带产生、无线信道模拟与MIMO信道仿真技术 [7] 复合衰落协作中继信道统计建模及仿真理论研究 [8] 无人机作战网络信号传播环境及编码理论研究 [9] 多天线无人机自组织网络数据链信号传播特性及模型研究 [10] **星间链路模拟器 [11] OFDM系统同步算法研究 [12] 项目开发 [13] 项目开发 [14] 微波矢量信号发生器开发和应用 [15] 多平台协同制导数据链网络无线传播环境建模仿真研究

研究领域

面向深空/无人机/车联网的无线通信,B5G/6G信道认知测量与建模; 无线电波传播机理及模型,三维电磁频谱态势感知与测绘;

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

1. Qiuming Zhu, Hao Li, Yu Fu, et al. A Novel 3D Non-stationary Wireless MIMO Channel Simulator and Hardware Emulator [J]. IEEE Transactions on Communications, 2018, 66(9): 3865-3878. 移动场景非平稳信道模型 2. Qiuming Zhu, Zikun Zhao, Kai Mao, et al. A Real-Time Hardware Emulator for 3D Non-Stationary U2V Channels [J]. IEEE Transactions on Circuits and Systems-I: Regular Papers, 2021.09, 68(9):3951-3964. 无人机非平稳信道模拟器 3. Qiuming Zhu, Mengtian Yao, Fei Bai, Xiaomin Chen, Weizhi Zhong, Boyu Hua, Xijuan Ye, A General altitude-dependent path loss model for UAV-to-ground millimeter-wave communications[J]. Frontiers of Information Technology & Electronic Engineering, 2021, 22(6):767-776. 无人机毫米波传播损耗模型 4. Qiuming Zhu, Fei Bai, Minghui Pang, Jie Li, et al, “Geometry-based stochastic line-of-sight probability model for A2G channels under urban scenarios,” IEEE Transactions on Antennas and Propagation, to be published, 2022. 无人机信道视距路径概率模型 5. Kai Mao, Qiuming Zhu, Maozhong Song, Hanpeng Li, Benzhe Ning, et al., “Machine learning-based 3D channel modeling for U2V mmWave communications,” IEEE Internet of Things Journal, Mar. 2022. doi: 10.1109/JIOT.2022.3155773. 无人机毫米波信道模型 6. Nan Qi, Wei Wang, Ming Xiao, Luliang Jia, Shi Jin, Qiuming Zhu, et al. A Learning-Based Spectrum Access Stackelberg Game: Friendly Jammer-Assisted Communication Confrontation [J]. IEEE Transactions on Vehicular Technology, 2021, 70(1):700-713. 7. Yi Tan, Cheng-Xiang Wang, Jesper Ødum Nielsen, Gert F. Pedersen, Qiuming Zhu. A Novel B5G Frequency Nonstationary Wireless Channel Model [J]. IEEE Transactions on Antennas and Propagation, 2021, 69(8):4846-4860. 8. Tianyu Hu, Yang Huang, Qiuming Zhu, et al. Channel Estimation Enhancement with Generative Adversarial Networks [J]. IEEE Transactions on Cognitive Communications and Networking, 2020 ,7(1):145-156. 9. Boyu Hua, Qiuming Zhu, Cheng-Xiang Wang, Haoran Ni, et al, Effects of fuselage scattering and posture on UAV channel, CSPS2021, Changbaishan, China, Aug. 2021. (Best Paper Award) 10. Qiuming Zhu, Shan Jiang, Cheng-Xiang Wang, Boyu Hua, Kai Mao, Xiaomin Chen, Weizhi Zhong, Effects of Digital Map on the RT-based Channel Model for UAV mmWave Communications, IWCMC2020, Limassol Cyprus, June 2020,1648-1653. (Best Paper Award) 11. Qiuming Zhu, Wei Huang, Kai Mao, Weizhi Zhong, et al. A Flexible FPGA-based Channel Emulator for Non-Stationary MIMO Fading Channels [J]. Applied Sciences, 2020, 10(12): 4161-4172. 12. Kai Mao, Qiuming Zhu, Maozhong Song, Benzhe Ning, Boyu Hua, Weizhi Zhong, and Xiaomin Chen. A Novel Non-Stationary Channel Model for UAV-to-Vehicle mmWave Beam Communications, MLICOM2020, Shenzhen, China, Sept. 2020, vol 342, 471-484. (Best Paper Award) 13. Qiuming Zhu, Yawen Wang, Kaili Jiang, Xiaomin Chen, Weizhi Zhong, Naeem Ahmed, 3D non-stationary geometry-based multi-input multi-output channel model for UAV-ground communication systems [J]. IET Microwaves, Antennas & Propagation, 2019, 13(8):1104-1112 14. Qiuming Zhu, Weidong Li, Cheng-Xiang Wang, Dazhuan Xu, et al. Temporal Correlations for a Non-Stationary Vehicle-to-Vehicle Channel Model Allowing Velocity Variations [J], IEEE Communications Letters, 2019, 23(7): 1280-1284. 15. Qiuming Zhu, Weidong Li, Ying Yang, Dazhuan Xu, et al. A General 3D Nonstationary Vehicle-to-Vehicle Channel Model Allowing 3D Arbitrary Trajectory and 3D-Shaped Antenna Array [J], International Journal of Antennas and Propagation, Volume 2019, Article ID 8708762, 1-12. 16. Qiuming Zhu, Ying Yang, Cheng-Xiang Wang, Yi Tan, et al. Spatial Correlations of a 3-D Non-Stationary MIMO Channel Model With 3-D Antenna Arrays and 3-D Arbitrary Trajectories [J]. IEEE Wireless Communications Letters, 2019, 8(2):512-515. 17. Yuming Bi, Jianhua Zhang, Qiuming Zhu, et al. A Novel Non-Stationary High-speed Train (HST) Channel Modeling and Simulation Method [J]. IEEE Transactions on Vehicular Technology, 2019, 68(1): 82-92 18. Maria J C S, Andrea S, Savvas A K, Qiuming Zhu, et al. Novel Data Pre-distorter for APSK Signals in Solid-State Power Amplifiers [J], IEEE Transactions on Circuits and Systems I: Regular Papers, 2019, 66(10): 4044-4054. 19. Weidong Li, Xiaomin Chen, Qiuming Zhu, Weizhi Zhong, and Dazhuan Xu, A Novel Segment-based Model for Non-Stationary Vehicle-to-Vehicle Channels with Velocity Variations [J], IEEE Access, 2019, 7(1): 133442-133451. 20. Weizhi Zhong, Lei XU, Qiuming Zhu, Xiaomin Chen, Jianjiang Zhou, MmWave Beamforming for UAV Communications with Unstable Beam Pointing [J], China communications, 2019, 16(1): 37-46 21. Weizhi Zhong, Lei Xu, Xin Liu , Qiuming Zhu, Jianjiang Zhou, Adaptive Beam Design for UAV Network with Uniform Plane Array [J], Physical Communication, 2019, 34:58-65. 22. Weizhi Zhong, Lei Xu, Qiuming Zhu, Xiaomin Chen, Jianjiang Zhou, A Novel Beam Design Method for mmWave Multi-Antenna Arrays with Mutual Coupling Reduction [J], China communications, 2019, 16(10): 37-44 23. Qiuming Zhu, Ying Yang, Xiaomin Chen, Yi Tan, et al.Novel 3D non-stationary vehicle-to-vehicle channel model and its spatial-temporal correlation properties [J], IEEE Access, 2018, 6: 43633–43643. 24. Qiuming Zhu, Kaili Jiang, Xiaomin Chen, Weizhi Zhong, et al. A Novel 3D Non-Stationary UAV-MIMO Channel Model and Its Statistical Properties [J]. China Communication, 2018, 15(12): 147–158. 25. Kaili Jiang, Xiaomin Chen, Qiuming Zhu, Lele Chen, Dazhuan Xu, Bing Chen. A Novel Simulation Model for Nonstationary Rice Fading Channels [J].Wireless Communications and Mobile Computing, 2018, 2018:1–9. 26. Xiaomin Chen, Xujun Hu, Qiuming Zhu, Weizhi Zhong, Bin Chen, Channel Modeling and Performance Analysis for UAV Relay Systems [J]. China Communications, 2018, 15(12): 89–97. 27. Xujun Hu, Xiaomin Chen, Qiuming Zhu, Weizhi Zhong, Bin Chen, A New Simulation Method for UAV Communication Channels Based on GPUs [J]. International Journal of Modeling and Optimization,2018, 8(3):154-159 [1] 朱秋明,,等.Spatial correlation for antenna array under arbitrary 3D propagation scenarios.Xi Tong Cheng Yu Dian Zi Ji Shu/Syst Eng Electron,2017 [2] 朱秋明,,等.Spatial Correlations of a 3-D Non-Stationary MIMO Channel Model with 3-D Antenna Arrays and 3-D Arbitrary Trajectories.IEEE Wireless Commun. Lett.,2019 [3] 朱秋明,,等.时变多普勒衰落信道硬件模拟的FPGA实现.电讯技术,2018 [4] 朱秋明,,等.非平稳信道衰落FPGA实时模拟方法.信号处理,2018 [5] 朱秋明,,等.A modified non-stationary MIMO channel model under 3D scattering scenarios.IEEE/CIC Int. Conf. Commun. China, ICCC,2018 [6] 朱秋明,,等.信道噪声实时产生算法及改进研究.信号处理,2018 [7] 朱秋明,,等.高机动无人机通信信道模拟器研制.电子测量与仪器学报,2018 [8] 朱秋明,,等.A Novel 3D Non-Stationary Wireless MIMO Channel Simulator and Hardware Emulator.IEEE TRANSACTIONS ON COMMUNICATIONS,2018 [9] 朱秋明,,朱秋明等.三维空间多天线相关性及互耦影响研究.电波科学学报,2017 [10] 朱秋明,,等.时间演进非平稳莱斯衰落信道建模及产生方法.应用科学学报,2017 [11] 朱秋明,,等.三维传播环境天线阵列空域相关性研究.系统工程与电子技术,2017

学术兼职

IEEE会员,电子学会高级会员,通信学会高级会员,导航系统仿真及测试技术重点实验室学术委员,通信学会测试技术委员会委员,江苏省科技副总项目受聘专家,江苏省高校优秀科技创新团队和青蓝团队骨干成员;教育部学位和研究生发展教育中心评审专家,研究生电子设计竞赛评审专家;江苏省高新技术企业评审专家; 担任ACM Wireless Networks,EURASIP Journal on Advances in Signal,Symmetry等多个期刊编委成员,担任《IEEE Transaction on Communication》,《IEEE Transactions on Wireless Communications》,《IEEE Transactions on Circuits and Systems》,《IEEE Transactions on Antennas and Propagation》,《IEEE Transaction on Vehicle Technology》,《中国科学》和《通信学报》等学术期刊长期审稿人,担任多个国际会议TPC和分会场主席。

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