直属机构: 通信与电子工程学院
学科:
10 访问
相关教师
个人资料
部门: 通信与电子工程学院
性别: 男
专业技术职务: 紫江青年****
毕业院校: 西安电子科技大学
学位: 工学博士
学历: 研究生
联系电话:
电子邮箱: ychen@ce.ecnu.edu.cn
办公地址: 闵行校区信息楼561
通讯地址: 上海市闵行区东川路500号
邮编: 200241
传真:
教育经历
博士:西安电子科技大学,综合业务网理论及关键技术国家重点实验室,通信与信息系统专业(直接攻读博士学位)2009-2015
国家公派:加拿大渥太华大学,微波光子学实验室(国家公派联合培养博士生)2012-2014
本科:西安电子科技大学,通信工程学院,通信工程专业(本硕连读)2005-2009
工作经历
2017-至今,华东师范大学
2015-2017,上海卫星工程研究所
个人简介
陈阳,博士,华东师范大学通信与电子工程学院研究员,博士生导师,紫江青年****。2009年7月毕业于西安电子科技大学通信工程学院(本硕连读班),获工学学士学位;2009年8月起在西安电子科技大学综合业务网理论及关键技术国家重点实验室(ISN)直接攻读博士学位,导师文爱军教授、邱智亮教授,2015年3月获通信与信息系统专业工学博士学位,主要研究方向为微波信号光学生成与传输技术;2012年9月至2014年2月受国家留学基金委资助在加拿大渥太华大学微波光子学实验室进行访问研究,导师姚建平院士,主要从事光电振荡器、微波信号光学生成与传输方面的研究工作。2015年4月-2017年2月,在上海卫星工程研究所从事卫星数据传输系统设计及微波光子技术星载应用研究。2017年3月加入华东师范大学通信与电子工程学院。
News:
2020.12实验室论文“High-Accuracy Multiple Microwave Frequency Measurement With Two-Step Accuracy Improvement Based on Stimulated Brillouin Scattering and Frequency-to-Time Mapping”被光子学领域权威期刊IEEE/OSA J. Lightw. Technol.录用,该论文基于受激布里渊散射和频时映射提出了一种超精度的微波频率测量方法,可以同时测量大带宽范围内的多个微波频率,频率测量误差小于1MHz。
2020.11祝贺实验室刘佳林同学顺利通过硕士学位论文答辩。
2020.10 实验室论文“Photonic-based reconfigurable microwave frequency divider using two cascaded dual-parallel Mach Zehnder modulators”被光子学权威期刊Opt. Exp.在线发表,该论文提出了一种基于微波光子技术的微波分频器,采用该分频器可以可重构的实现对微波信号的整数或分数分频(1/2,1/3,2/3,2/5等)。
2020.9 欢迎韩墨璇、马东、王实三位同学加入实验室。
2020.8 实验室获上海市自然基金面上项目资助(2020.7-2023.6)。
2020.6 祝贺实验室第一位硕士研究生常梦旭同学顺利通过硕士学位论文答辩。毕业照1.jpg毕业照2.jpg
2020.6 实验室获华东师范大学科研创新基金“青年教师科研能力提升计划”项目支持(2020)。
2020.5 实验室论文“A Photonic-Based Wideband RF Self-Interference Cancellation Approach With Fiber Dispersion Immunity”,被光子学领域权威期刊IEEE/OSA J. Lightw. Technol.录用,该论文提出了一种结构简单的大带宽射频自干扰消除方法,实现了超过2 GHz带宽的自干扰抑制,干扰抑制比超过20 dB,同时,该方法具有自干扰光域消除及有用接收信号抗色散传输的特点,可以适应某些应用场景下有用接收信号光纤传输的需求。
2020.4 实验室左鹏程同学的论文“Photonic-Assisted Filter-Free Microwave Doppler Frequency Shift Measurement Using a Fixed Low-Frequency Reference Signal”,被光子学领域权威期刊IEEE/OSA J. Lightw. Technol.录用,该论文提出了一种基于级联调制器结构且无需滤波器的多普勒频移测量方法,可以实现大带宽范围内信号多普勒频移的精确测量。
2020.2实验室与加拿大渥太华大学姚建平院士的合作研究成果“Photonic-Assisted RF Self-Interference Cancellation With Improved Spectrum Efficiency and Fiber Transmission Capability”,被光子学领域权威期刊IEEE/OSA J. Lightw. Technol.在线发表,该论文提出了一种应用于带内全双工无线系统的高谱效率射频自干扰光域消除方法,在进行自干扰消除的同时实现了信号的基带光学传输,有效的提高了系统频谱效率。
2020.1 实验室承担的信息光子与光通信国家重点实验室(北京邮电大学)开放课题(2018.1-2019.12)顺利结题。
2019.12 实验室获区域光纤通信网与新型光通信系统国家重点实验室(北京大学)开放课题资助(2020.1-2021.12)。
2019.11 实验室翁北粤同学顺利通过硕士论文答辩,成为实验室第一位毕业的硕士研究生。硕士论文答辩.jpg
2019.11 实验室的研究成果“A Novel Photonic-based MIMO Radar Architecture With All Channels Sharing a Single Photonic Transceiver”,被IEEE Access在线发表,该论文基于光学频率梳和光纤色散实现了对MIMO雷达收发架构的简化。
2019.10 实验室获华东师范大学青年教师科研能力提升项目支持(2019)。
2019.9 欢迎石泰峡同学和梁丁丁同学加入实验室。
2019.8 实验室获国家自然基金面上项目资助(2020.1-2023.12)。
2019.5 实验室与加拿大渥太华大学姚建平院士的合作研究成果“Simultaneous Multi-Frequency Phase-Coded Microwave Signal Generation at Six Different Frequencies Using a DP-BPSK Modulator”和“On-chip two-step microwave frequency measurement with high accuracy and ultra-wide bandwidth using add-drop micro-disk resonators”分别被IEEE/OSA J. Lightw. Technol. 和Opt. Lett. 在线发表,并被作为Editor's pick论文被Opt. Lett.亮点报道。
社会兼职
IEEE、OSA、中国电子学会、中国光学学会会员,国家自然基金通讯评审专家,并长期作为IEEE/OSA Journal of Lightwave Technology, IEEE Photonics Technology Letters, IEEE Transactions on Microwave Theory and Techniques, IEEE Photonics Journal, Optics Letter, Optics Express, IET Communications, IET Electronics Letters, Applied Optics, Optics Communications, Optical Enginnering, Microwave and Optical Technology Letters等国际期刊,以及光子学报、红外与激光工程等国内期刊的审稿人。
研究方向
微波光子学课题组招生信息
招生专业:通信与信息系统(学术硕士、博士)、电子与通信工程(工程硕士)
研究方向:带内无线系统自干扰消除,通信/微波信号光子学生成、处理与传输,光载无线系统,微波光子雷达,深度学习辅助的光子系统等。
课题组相关科学研究工作受国家自然科学基金青年项目、面上项目、上海市自然科学基金面上项目支持,课题组还与航天八院等科研院所有相关项目合作,开展工程应用研究工作,欢迎具有通信、微波、光学等背景,并对科研工作有强烈兴趣的同学报考课题组硕士研究生及博士研究生,从事课题组相关的科学研究、工程实践、仿真实验、软件开发等工作。具有一定实验动手能力、编程和软件开发能力者优先考虑。
研究生:
在读博士研究生:
2018级:
左鹏程
出生年月: 1990年3月
研究兴趣:微波光子雷达,微波光子信号测量
2019级:
石泰峡
出生年月: 1992年8月
研究兴趣:光子辅助自干扰消除
2020级:
陈煜(硕博连读)
出生年月: 1995年12月
研究兴趣:微波光子信号处理
在读硕士研究生:
2019级:
梁丁丁
出生年月: 1996年5月
研究兴趣:微波光子雷达
2020级:
韩墨璇
研究兴趣:光子辅助自干扰消除
马东
研究兴趣:微波光子雷达
王实
研究兴趣:微波光子测量
已毕业研究生:
2018级:
刘佳林
出生年月:1996年7月
研究兴趣:微波光子信号测量
2017级
翁北粤
出生年月: 1994年10月
研究兴趣:光子辅助自干扰消除
就业单位:中电十一所(北京)
常梦旭
出生年月: 1993年2月
研究兴趣:微波光子信号生成
就业单位:中电三十二所(上海)
开授课程
2020-2021春季学期,本科生课程,信号与系统,72学时,3.5学分
2020-2021春季学期,研究生课程,无线通信,36学时,2学分
结束课程:
2020-2021秋季学期,研究生课程,随机过程,54学时,3学分
2020-2021秋季学期,研究生课程,微波光子学,54学时,3学分
2019-2020春季学期,本科生课程,信号与系统,54学时,3学分
2019-2020春季学期,研究生课程,无线通信,36学时,2学分
2018-2019春季学期,本科生课程,信号与系统,54学时,3学分
科研项目
在研:
2020-2023,上海市自然基金面上项目,面向连续波雷达系统的自干扰光子数字一体化模拟消除技术研究
2020-2023,国家自然基金面上项目,光子辅助高谱效率射频自干扰消除研究
2020-2021,横向课题,微波光子XXXX光学处理组件
2020-2021,区域光纤通信网与新型光通信系统国家重点实验室(北京大学)开放课题
已结题:
2020-2020,华东师范大学科研创新基金“青年教师科研能力提升计划”项目
2019-2019,华东师范大学青年教师科研能力提升项目
2018-2019,信息光子学与光通信国家重点实验室(北京邮电大学)开放课题
2017-2019,国家自然基金青年基金,动态可重构大时间带宽积脉冲压缩信号光学生成研究
2017-2018,中央高校基本科研业务费
学术成果
国际期刊论文:
2021年
2.Jialin Liu, Taixia Shi, Yang Chen*,High-Accuracy Multiple Microwave Frequency Measurement With Two-Step Accuracy Improvement Based on Stimulated Brillouin Scattering and Frequency-to-Time Mapping [J], IEEE/OSA J. Lightw. Technol., Accepted.
1.Mengxu Chang, Lizhong Jiang, Qingbo Liu, Jing Xu,Yang Chen*, Evaluation of the performance of linearly frequency modulated signals generated by heterodyning two free-running laser diodes, Optoelectron. Lett., Accpeted.
2020年
6.Yu Chen, Pengcheng Zuo, Taixia Shi, Yang Chen*, Photonic-based reconfigurable microwave frequency divider using two cascaded dual-parallel Mach Zehnder modulators [J], Opt. Exp., vol. 28, no. 21, pp. 30797-30809, Oct. 2020.
5.Yang Chen*, A Photonic-Based Wideband RF Self-Interference Cancellation Approach With Fiber Dispersion Immunity [J], IEEE/OSA J. Lightw. Technol., vol. 38, no. 17, pp. 4618-4624, Sept. 2020.
4.Pengcheng Zuo, Yang Chen*, Photonic-Assisted Filter-Free Microwave Doppler Frequency Shift Measurement Using a Fixed Low-Frequency Reference Signal [J], IEEE/OSA J. Lightw. Technol., vol. 38, no. 16, pp.4333-4340, Aug. 2020.
3.Yang Chen*,Lizhong Jiang, Qingbo Liu, Multi-Frequency Phase-Coded Microwave Signal Generation With an Increased Number of Frequencies [J], IEEE Photon. Technol. Lett., vol. 32, no. 16, pp. 975-978, Aug. 2020.
2.Yu Chen, Pengcheng Zuo, Yang Chen*, Photonic-assisted image rejection mixer based on Hilbert transform in the optical domain using a phase-shifted fiber Bragg Grating [J], Opt. Eng., vol. 65, no. 9, pp. 063101, Jun. 2020.
1.Yang Chen* and Jianping Yao, Photonic-Assisted RF Self-Interference Cancellation With Improved Spectrum Efficiency and Fiber Transmission Capability[J], IEEE/OSA J. Lightw. Technol., vol. 38, no. 4, pp. 761-768, Feb. 2020.
2019年
4.Yang Chen*, Beiyue Weng, Jialin Liu, A Novel Photonic-based MIMO Radar Architecture With All Channels Sharing a Single Photonic Transceiver [J], IEEE Access, vol. 7, pp. 165093-165102, 2019.
3.Yang Chen*, Weifeng Zhang, Jingxuan Liu, and Jianping Yao, On-chip two-step microwave frequency measurement with high accuracy and ultra-wide bandwidth using [J], Opt. Lett., vol. 44, no. 10, pp. 2402-2405, May 2019. (Highlighted as an Editor’s Pick)
2.Beiyue Weng, Yu Chen, Yang Chen*, Photonic-assisted wideband frequency downconverter with self-interference cancellation and image rejection [J], Appl. Opt., vol. 58, no. 13, pp. 3539-3547, May 2019.
1.Yang Chen* and Jianping Yao, Simultaneous Multi-Frequency Phase-Coded Microwave Signal Generation at Six Different Frequencies Using a DP-BPSK Modulator [J], IEEE/OSA J. Lightw. Technol., vol. 37, no. 10, pp. 2293-2299, May 2019.
2018年
9.Beiyue Weng, Mengxu Chang, Yang Chen*, Radio-frequency self-interference cancellation using a dual-drive Mach-Zehnder modulator and a fiber Bragg grating [J]. Opt. Eng., vol. 57, no. 8, pp. 08310, Aug. 2018.
8.Yang Chen*. Frequency-Doubled Microwave Signal Generation With Arbitrary Amplitude and Phase Shift [J]. IEEE Photon. J., vol. 10, no. 4, pp. **, Aug. 2018. (SCI: 001)
7.Yang Chen*. Photonic Generation and Transmission of Triangular and Square Waveforms With a Large Repetition Rate Tunable Range [J]. IEEE/OSA J. Lightw. Technol., vol. 36, no. 6, pp. 3293-3301, Aug. 2018. (SCI: 019)
6.Yang Chen*, Shilong Pan. Simultaneous wideband radio-frequency self-interference cancellation and frequency downconversion for in-band full-duplex radio-over-fiber systems [J]. Opt. Lett., vol. 43, no. 13, pp. 3124-3127, Jul. 2018. (SCI: 029)
5.Yang Chen*, Shilong Pan. Photonic Generation of Tunable Frequency-Multiplied Phase-Coded Microwave Waveforms [J]. IEEE Photon. Technol. Lett., vol. 30, no. 13, pp. 1230-1233, Jul. 2018. (SCI: 017)
4.Yang Chen*. Analysis of the dual-parallel Mach-Zehnder modulator based equivalent phase modulation [J]. J. Mod. Opt., vol. 65, no. 18, pp. 2079-2085, Jul. 2018.
3.Yang Chen*. A wideband photonic microwave phase shifter with 360-degree phase tunable range based on a DP-QPSK modulator [J]. Opt. Commun., vol. 410, pp. 787-792, Mar. 2018. (SCI: 0004**)
2.Yang Chen*. High-Speed and Wideband Frequency-Hopping Microwave Signal Generation via Switching the Bias Points of Optical Modulator[J]. IEEE Photon. J., vol. 10, no.1. pp. **, Feb. 2018. (SCI: 001)
1.Yang Chen*, Shifeng Liu, Shilong Pan*. Multi-format signal generation using a frequency-tunable optoelectronic oscillator [J]. Opt. Exp., vol. 26, no. 3, pp. 3404-3420, Feb. 2018. (SCI: 111)
2017年
2.Yang Chen*, Shilong Pan. A Frequency-Tunable Binary Phase-Coded Microwave Signal Generator With a Tunable Frequency Multiplication Factor [J]. IEEE Photon. J., vol. 9, no.6, pp. **, Dec. 2017. (SCI: 0004**)
1.Yang Chen*, Aijun Wen, Wu Zhang. Generation of Phase-Coded Microwave Signals Through Equivalent Phase Modulation[J]. IEEE Photon. Technol. Lett., vol. 29, no. 16, pp. 1371-1374, Aug. 2017. (SCI: 024)
2010-2016年
17.Yang Chen, Aijun Wen, Lei Shang. Analysis of an optical mm-wave generation scheme with frequency octupling using two cascaded Mach-Zehnder modulators[J]. Opt. Commun., 2010, vol. 283, no. 24, pp. 4933-4941, Dec. 2010. (SCI: 015)
16.Yang Chen, Aijun Wen, Jingjing Guo, Lei Shang, Yong Wang. A novel optical mm-wave generation scheme based on three parallel Mach-Zehnder modulators[J]. Opt. Commun., 2011, vol. 284, no. 5, pp. 1159-1169, Mar. 2011. (SCI: 009)
15.Yang Chen, Aijun Wen, Lei Shang. Full-duplex radio-over-fiber system based on a novel octupling mm-wave generation scheme[J]. Fiber Integrated Opt., vol. 30, no. 4, pp. 231-239, Aug. 2011. (SCI: 001)
14.Yang Chen, Aijun Wen, Lei Shang, Yong Wang. A full-duplex radio-over-fiber link with 12-tupling mm-wave generation and wavelength reuse for upstream signal[J]. Opt. Laser Technol., vol. 43, no. 7, pp. 1167-1171, Oct. 2011. (SCI: 020)
13.Yang Chen, Aijun Wen, Xiaojie Yin, Lei Shang, Yong Wang. Generation of frequency-doubling mm-wave signal using a novel Mach-Zehnder modulator with three arms to overcome fiber chromatic dispersion[J]. Opt. Fiber Technol., vol. 18, no. 1, pp. 1-6, Jan. 2012. (SCI: 001)
12.Yang Chen, Aijun Wen, Xiaojie Yin, Lei Shang. A photonic mm-wave frequency sextupler using an integrated Mach-Zehnder modulator with three arms[J]. Fiber Integrated Opt., vol. 31, no. 3, pp. 196-207, Jun. 2012. (SCI: 005)
11.Yang Chen, Wangzhe Li, Aijun Wen, Jianping Yao. Frequency-multiplying optoelectronic oscillator with a tunable multiplication factor[J]. IEEE Trans. Microw. Theory Tech., vol. 61, no. 9, pp. 3470-3478, Sep. 2013. (SCI: 034)
10.Yang Chen, Aijun Wen, Jianping Yao. Photonic generation of frequency tunable binary phase-coded microwave waveforms[J]. IEEE Photon. Technol. Lett., vol. 25, no. 23, pp. 2319-2322, Dec. 2013. (SCI: 012)
9.Yang Chen, Tong Shao, Aijun Wen, Jianping Yao. Microwave vector signal transmission over an optical fiber based on IQ modulation and coherent detection[J]. Opt. Lett., vol. 39, no. 6, pp. 1509-1512, Mar. 2014. (SCI: 046)
8.Yang Chen, Aijun Wen, Yan Chen, Xiaohui Wu. Photonic generation of binary and quaternary phase-coded microwave waveforms with an ultra-wide frequency tunable range[J]. Opt. Exp., vol. 22, no. 13, pp. 15618-15625, Jun. 2014. (SCI: 047)
7.Xiaojie Yin, Aijun Wen, Yang Chen, Tonggang Wang. Studies in an optical mm-wave generation scheme via two parallel dual-parallel Mach-Zehnder modulators[J]. J. Mod. Opt., 2011, 58(8): 665-673. (SCI: 005)
6.Xiaojie Yin, Aijun Wen, Yang Chen. A cost-effective full-duplex radio-over-fiber system based on frequency octupling and wavelength reuse[J]. Fiber Integrated Opt., 2011, 30(6): 347-355. (SCI: 001)
5.Ming’an Li, Aijun Wen, Yang Chen, Lei Shang, Lei Yang, Fangyan Wang. An optical millimeter-wave vector signal generation scheme by frequency quadrupling[J]. Opt. Commun., 2012, 285(24): 5429-5432. (SCI: 122)
4.Mei Yin, Aijun Wen, Yang Chen, Lei Shang. Photonic generation of high order UWB signals[J]. Optik, 2013, 124(12): 1079-1082. (SCI: 002)
3.Aijun Wen, Ming’an Li, Lei Shang, Yang Chen. A novel optical SSB modulation scheme with interfering harmonics suppressed for ROF transmission link[J]. Opt. Laser Technol., 2011, 43(7): 1061-1064. (SCI: 004)
2.Lei Shang, Aijun Wen, Bo Li, Tonggang Wang, Yang Chen, Ming’an Li. An optical mm-wave generation scheme by frequency octupling using a nested MMI[J]. Opt. Commun., 2011, 284(24): 5618-5622. (SCI: 016)
1.Lei Shang, Aijun Wen, Bo Li, Tonggang Wang, Yang Chen, Ming’an Li. A filterless optical millimeter-wave generation based on frequency octupling[J]. Optik, 2012, 123(13): 1183-1186. (SCI: 013)
国际会议论文:
2019年
4.Yu Chen, Yang Chen*, All-Optical Image Rejection Mixer Based on Optical Hilbert Transform Using a Phase-Shifted Fiber Bragg Grating [C], 2019 Asia-Pacific Microwave Conference (APMC2019). Singapore, December 10-13rd, 2019.
3.Yang Chen* Beiyue Weng, Jialin Liu, Simplified Photonic-Assisted MIMO Radar Transceiver for Large-Scale Antenna Array [C], 2019 Asia Communications and Photonics Conference (ACP2019), Chengdu, China, November 2-5, 2019.
2.Jialin Liu, Yang Chen*, Photonic-assisted microwave spectrum sensing based on optical carrier-suppressed single-sideband modulation and coherent detection [C], Real-time Photonic Measurements, Data Management, and Processing IV, SPIE/COS Photonics Asia, Hangzhou, China, October 20-23rd, 2019.
1.Yang Chen*, Beiyue Weng, Multifunctional microwave signal generation and processing based on equivalent phase modulation [C], Real-time Photonic Measurements, Data Management, and Processing IV, SPIE/COS Photonics Asia, Hangzhou, China, October 20-23rd, 2019. (Invited).
2018年
7.Beiyue Weng, Yang Chen*, Simultaneous frequency down-conversion, self-interference cancellation, and image rejection for radio-over-fiber systems using a DP-QPSK modulator [C], International Conference on Optical Communications and Networks 2018 (ICOCN2018), Zhuhai, China, November 16-19, 2018. SPIE Conference Proceeding, Feb. 2019.
6.Mengxu Chang, Yang Chen*, Generation of Phase-Coded Microwave Signals With a Tunable Frequency Multiplication Factor [C], 2018 Asia Communications and Photonics Conference (ACP2018), Hangzhou, China, October 26-29, 2018.
5.Yang Chen*, Shilong Pan, Photonics-Assisted Radio-Frequency Self-Interference Cancellation and Fiber Transmission Using a DP-QPSK modulator [C]. 2018 International Topical Meeting on Microwave Photonics (MWP2018), Toulouse, France, October 22-25th, 2018.
4.Yang Chen*, Shilong Pan, Photonic-Assisted Multi-Frequency Phase-Coded Microwave Signal Generation [C]. 2018 IEEE Photonics Conference, Reston, VA, USA, 30 September-4 October, 2018.
3.陈阳*,常梦旭,翁北粤,基于等效相位调制的微波信号光子学生成[C],全国第18次光纤通信暨第19届集成光学学术大会,2018年7月13日-16日,中国长春。
2.翁北粤,常梦旭,陈阳*,基于双驱动马赫曾德尔调制器和光纤布拉格光栅的射频信号自干扰抵消[C],全国第18次光纤通信暨第19届集成光学学术大会,2018年7月13日-16日,中国长春。
1.Mengxu Chang, Yang Chen*, Frequency-Doubled Phase-Coded Microwave Signal Generation Based on Cascaded Modulators [C]. The fifth IEEE MTT-S International Wireless Symposium (IEEE IWS’2018), Chengdu, China, May 6-10, 2018.
2017年
2.Yang Chen*, Shilong Pan. Generation of Frequency-Tripled Binary Phase-Coded Microwave Signals Using a DP-QPSK Modulator [C]. In 2017 Asia Communications and Photonics Conference (ACP2017), Guangzhou, China, November 10-13, 2017.
1.Yang Chen*, Shifeng Liu, Shilong Pan. An Optically Tunable Frequency-Multiplying Optoelectronic Oscillator Through Equivalent Phase Modulation [C]. In 2017 International Topical Meeting on Microwave Photonics (MWP2017), Beijing, China, October 23-26th, 2017.
国家发明专利:
近年来申请国家发明专利16项,已授权11项。
荣誉及奖励