卢冰，工学博士，博士生/硕士生导师。毕业于西南交通大学通信与信息系统专业，主要研究方向为AI辅助的智能微波光子信号检测、微弱信号感知，以及面向6G的光与无线融合通信系统。2024年6月至2025年5月，受国家留学基金委资助，在英国班戈大学卓越DSP中心进行学术访问。主持国家自然科学基金青年项目、国家自然科学基金联合重点基金课题、重庆市教育委员会科学技术研究项目、教育部重点实验室开放课题等科研项目共7项；作为主要研究成员，参与包括863计划、973计划、国家重点研发计划子课题、国家自然科学基金面上项目在内的多项国家级及省部级科研项目。在相关领域已发表SCI/EI检索论文60余篇，并在本领域权威国际会议（如OFC、MWP等）作学术报告5次。申请/授权发明专利11项。担任第9届与第10届微波光子应用技术大会“微波光子传感与测量”专题秘书，同时担任Photonics Research、Optics Letters、Optics Express、Journal of Lightwave Technology、IEEE Photonics Technology Letters等多个国际权威期刊的审稿人。团队隶属于：智能通信与网络安全研究院。

硕士招生要求（欢迎研究生报考）：

[1]. 做事踏实认真，积极主动，具有团队合作能力；

[2]. 能静下心，具有独立的分析、解决问题能力；

[3]. 有付出才有收获，愿意付出，努力上进。

代表性论文：

[29]. B. Lu*, Xueling Liu, Wei Jin*, et al. Improved performance of seamlessly converged fiber-mmWave transmission systems by iterative SSBl mitigation-enabled global linearization, in 2026 Optical Fiber Communications Conference and Exhibition (OFC2026), Los Angeles, California, United States, Paper. M2I, 2026. [Oral presenting]

[28]. B. Lu*, Yifan Bai, Jiaxin Zhang, et al. Photonic-assisted broadband RF receivers with low IF frequencies based on Kramers-Kronig processing, Optics Express, 33(5), pp. 9176-9186, 2025.

[27]. 白嘉诚, 卢冰(通信作者),等. 基于窄带FBG的宽带可调谐双啁啾微波信号生成,中国激光, 52 (1), pp. 0106003, 2025.

[26].  杨海龙, 卢冰(通信作者),等. 基于放大自发辐射光的密钥隐藏与分发加密光通信系统, 光学学报, 45 (10), pp. 1006001, 2025.

[25].  杨海龙, 卢冰(通信作者),等. 基于放大自发辐射光与混沌数字加密的光隐蔽通信系统, 光学学报，45 (16), pp. 1606008, 2025.

[24].卢冰，陈康,等，宽带多载波微波光链路的自适应非迭代线性化技术，光学学报，44(12)，pp.1207001, 2024. 

[23]. 卢冰，付方格,等，灵敏度增强的非重复瞬态弱信号光学感知研究，光学学报: 43(10), pp. 1-14, 2023.

[22].  Fangge Fu, B. Lu (通信作者), et al, Low-cost covert wireless communication assisted by optical frequency comb for deep denoising, MWP2022, Nanjing, Paper.#52, Aug. 2022.

[21].  Fangge Fu, B. Lu(通信作者), et al, Large SNR Enhanced Fast Non-repetitive event detection by an improved spectral cloning receiver, ICAIT2022, Chongqing, Paper. A018, July 2022.

[20].  X. L. Yan, W. Pan, X. H. Zou, B. Lu, L. S. Yan, B. Luo, Optical frequency comb assisted denoising for multiple access and capacity, Opt. Lett., 2022.

[19].  X. L. Yan, W. Pan, X. H. Zou, B. Lu, L. S. Yan, B. Luo, Digitally programmable optical frequency combs with binary phase distribution and flat envelope, IEEE Photon. Technol. Lett., 33(15), 792-795, 2021.

[18].  B. Lu, Keji Zhu, et al, Microwave multi-frequency measurement based on a MZI and an optical wavelength scanner, Asia Communications and Photonics Conference (ACPC), Shanghai, paper. M4A.251, 2021.

[17].  卢冰，邹喜华，微波光子检测【特邀】，红外与激光技术,50(07), pp.15-18, 2021.

[16].  B. Lu, et al. Photonic-based Instantaneous frequency measurement with improved measurement range and resolution, Asia Communications and Photonics Conference (ACPC), Chengdou, paper. M4A.93, 2019.

[15]. X. H. Zou, F. Zou, Z. Z. Cao, B. Lu, X. L. Yan, et al. Integrated microwave photonics: a multifunctional photonic integrated circuit for diverse microwave signal generation, transmission, and processing, Laser Photon. Rev., 13(6), 1970027, 2019.

[14].  B. Lu, W. Pan, X. H. Zou, Y. H. Jiang, X. L. Yan, et al. Photonic-assisted intra-Pulse parameters measurement of complex microwave signals, J. Lightw. Technol., 36(17), pp. 3633-3644, 2018. 

[13]. X. H. Zou, B. Lu, W. Pan, L. S. Yan, A. Stöhr, J. P. Yao, Photonics for microwave measurements, Laser Photon. Rev., 10(5), pp.1-24, 2016.

[12].  B. Lu, W. Pan, X. H. Zou, Y. Pan, X. K. Liu, L. S. Yan, B. Luo, Wideband microwave Doppler frequency shift measurement and direction discrimination using photonic I/Q detection, J. Lightw. Technol., 34(20), pp.4639-4645, 2016.

[11].  B. Lu, W. Pan, X. H. Zou，X. L. Yan, B. Luo, X. K. Liu, P. X. Li, and X. L. Yan, Simplified photonic-assisted digitalized microwave frequency measurement with improved coding efficiency and sensitivity, Opt. Commun. 373, pp.105-109, 2016.

[10].  B. Lu, W. Pan, X. H. Zou, X. L. Yan, L. S. Yan, B. Luo, Wideband Doppler frequency shift measurement and direction ambiguity resolution using optical frequency shift and optical heterodyning,Opt. Lett., 40(10), pp. 2321-2324, 2015.

[9].  B. Lu, W. Pan, X. H. Zou, L. S. Yan, B. Luo, Photonic microwave frequency measurement with high-coding-efficiency digital outputs and large measurement range, IEEE Photon. J, 5(5), pp.5501906, 2013.

[8].  B. Lu, W. Pan, X. H. Zou, B. Luo, L. S. Yan, X. K. Liu, and S. Y. Xiang, Photonic frequency measurement and signal separation for Pulse/CW microwave signals, IEEE Photon. Technol. Lett., 25(5), pp.500-503, 2013.

[7].  B. Lu, W. Pan, X. H. Zou, Yan. Pan, X. K. Liu, L. S. Yan, and B. Luo, Enhanced Doppler frequency shift measurement and direction discrimination using photonic I/Q detection, 2015 IEEE international topic meeting on microwave photonics (MWP’2015), Paphos, Cyprus, 2015.

[6]. B. Lu, W. Pan, X. H. Zou, P. X. Li, X. K. Liu, L. S. Yan, and B. Luo, Simplified photonic approach for high coding-efficiency digitalized microwave frequency measurement using multiple optical filter arrays with different FSRs, in SPIE/COS Photonics Asia, pp. 92790M-92790M, Beijing, 2014.

[5].邹喜华，卢冰，基于光子技术的微波频率测量研究进展，数据采集与处理，29(06), pp. 885-894, 2014.

[4].卢冰，邹喜华，潘炜，罗斌，闫连山，基于倍增FSR 式光梳状滤波器阵列的瞬时频率测量研究,光电子.激光, 23(1), pp.126-129, 2012.

[3]. X. H. Zou, W. Z. Li, B. Lu, W. Pan, L. S. Yan，L. Y. Shao, Photonic approach to wide-frequency-range high-resolution microwave/millimeter-wave Doppler frequency shift estimation, IEEE Trans. Microw. Theory and Techn., 63(4), pp.1421-1430, 2015.

[2]. P. X. Li, W. Pan, X. H. Zou, B. Lu, and L. S. Yan, Fast tunable photonic single-bandpass RF filter with multiple arbitrary switching flat-top passbands, J. Lightw. Technol., pp. 4583-4590, 36(19), 2018.

[1]. H. X. Cheng, X. H. Zou, B. Lu, Y. Jiang, High-resolution range and velocity measurement based on photonic LFM microwave signal generation and detection, IEEE Photon. J., 11(1), 2018. 

申请/授权发明专利：

[1].卢冰, 朱柯冀，等.一种光学辅助的宽带微波瞬时频率测量方法，发明专利，授权公布号：CN 113315573 B，授权日期：2023. 02.10.

[2].   卢冰，周美美，等.一种新型的宽带微波光子信道化接收方法，发明专利，申请号：202210394114.3，申请日：2022.04.15.

[3].  陈康，卢冰，等.一种面向宽带多载波微波光链路的快速自适应线性化方法，发明专利，申请号：202311176426.8，2023.09.12

[4].  杨海龙, 卢冰，等.一种基于放大自发辐射光的加密光通信系统，发明专利，申请号：202411688453.8 ，2024.11.25

[5]. 卢冰，付方格，等. 一种噪声下瞬态微弱微波信号频谱光学检测方法及装置，授权号：202011585369.5，2023.12.

[6].卢冰, 邹喜华, 等.一种基于光子技术的多普勒频移检测方法及装置,专利号: ZL201410456672.3, 发明专利, 授权日期: 2016.05.18.

[7].  邹喜华, 卢冰, 潘炜,一种基于光子技术的微波信号类型和频率检测方法及装置,专利号: ZL201210032346.0, 授权日期: 2014.02.19.

[8].邹喜华，白文林，卢冰，潘炜，一种分布式高铁沿线电磁干扰实时监测装置及其方法, 申请号：2018101612893，申请日：2018.02.17.

[9].  邹喜华，王家琦，卢冰，潘炜，一种基于双光频梳的宽带微波测量装置, 申请号：2018101338282，申请日：2018.02.09

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