教师名录
杨彦甫
通讯地址:深圳市南山区西丽深圳大学城哈工大校区C407B房间
电子邮件:yangyanfu@hotmail.com
联系电话:+86-755-26036191

个人简介

主要研究下一代光网络关键技术,包括动态光网络传输使能技术、面向数据中心的短距离光通信技术等,欢迎积极主动乐观认真的同学加入光通信研究课题组,研究工作涵盖技术研发、通信仿真、光纤传输实验、光电模块设计开发等多个方面,为组内同学提供多方面的科研与创新实践机会。
招生计划:
1)博士生1名(招生专业为 电子科学与技术),提供国外交流和企业实践机会;
2)硕士研究生3-4名 (招生专业为 物理电子学 和 光学工程), 推免生优先;
3)博士后1名,待遇从优(年薪17万以上); 可申请加入QQ群咨询:262305330。
实验室网址:www.ocn-lab.com

研究方向

[1] 长距离高速光通信系统 [2] 面向数据中心的光网络技术
招生简章下载通道:https://pan.baidu.com/s/1boGvaAb

教育经历

2002-2007  获工学博士学位(电子科学与技术),清华大学
学位论文:超高速160Gb/s光时分复用光通信关键技术

1998-2002  获理学学士学位(应用物理),西安交通大学

研究与工作经历

2011年-至今  哈尔滨工业大学深圳研究生院,副教授,博士生导师(2016年-)
2007-2011  香港理工大学电子与讯息工程系,博士后
  

专业资质与学术兼职

2013  国家自然科学基金函评专家、广东省自然科学基金函评专家、科技东莞项目评审专家
2007  Photonic Tech Lett,Journal of LIghtwave Tech. Optics Express.等期刊审稿人

科研项目

2013-2015  国家自然科学基金青年项目:基于新型瑞利散射效应的多波长窄线宽激光器机理研究”负责人

2013-2014  深圳市基础研究:新一代光通信用基于新型瑞利散射的多波长kHz线宽光纤激光器理论与实验研究 负责人
2012-2013  哈尔滨工业大学科研创新基金:下一代高谱效率光纤通信系统关键理论及技术研究
2009-2011  华为技术有限公司-香港理工大学联合预研项目:下一代波分复用系统;主要参与
2007-2009  华为技术有限公司-香港理工大学联合预研项目:100Gbps长途光传输系统及样机研发;主要参与
2005-2009  国家自然基金项目:160Gb/s光时分复用系统 主要完成人
2003-2005  863重点项目:40Gb/s3R光再生技术研究 主要参与
2013-2015  深圳市超高速光通信关键技术产业公共服务平台

科研成果及奖励

2007  国内160Gbps光时分复用通信演示系统
2008  基于DQPSK的100Gbps光通信样机系统

发明专利

1. 兼容实现pdm-bpsk和qpsk调制的方法及装置 WO 2011085552 A1
2. 基于微波光子技术的信号接收装置和信号接收方法 WO 2011107055 A3
3. 实现偏振合波功能的光交错滤波装置及方法 WO 2011147245 A1
4. 光传输系统、装置和方法,CN101459470
5. 一种控制光调制器的偏置电压的方法及相关装置 CN101634759

论文及著作

[42] G. Cao, Y. Yang, K. Zhong, X. Zhou, Y. Yao, et al. “Fast Polarization-State Tracking Based on Radius-Directed Linear Kalman Filter”, OFC2015, Th4F.2,Los Angeles, USA
[41] G Cao, Y. Yang,K. P. Zhong, L. Cui, N. Ru, J. Gu, & Y. Yong, “Assessment of Extended Kalman Filtering Based Simultaneous Polarization and Phase Tracking for PDM-16QAM”, In Asia Communications and Photonics Conference (pp. ATh3A-134). Optical Society of America. (2014, November).
[40] Y. Yuan, Y. Yao, J. J. Xiao, Y. Yang, J. Tian, and C. Liu, "Experimental and numerical study of high order Stokes lines in Brillouin-erbium fiber laser," Journal of Applied Physics, vol. 115, p. 043102, 2014.
[39] Y. Zhu, Y. Yang, B. Yan, J. Zhong, and Y. Yao, "A dither-free bias voltage and driver signal amplitude control technique for optical 8PSK generator," Chinese Optics Letters, vol. 12, p. 0606, 2014.
[38] Y. Zhu, Y. Yang, B. Yan, J. Zhong, and Y. Yao,” Wavelength Conversion Using Electroabsorption Modulator Assisted by Delayed Interferometer Structure,” Acta Photonica Sinca Accepted
[37] B. Yan, Y. Yang, Y. Zhu, J. Zhong, J. Cao, B. Wu, et al., "A novel reconfigurable modulator implementation for generating optical eight-ary PSK/QAM signals," Chinese Optics Letters, vol. 12, p. 0605, 2014.
[36] B. Yan, Y. Yang, J. Zhong, Y. Zhu, J. Cao, and Y. Yao, " A study on the relationship between inter-symbol-transition pattern and optical filtering performance for multi-level PSK modulator implementations," Chinese Journal of Laser, Accepted
[35] Y. Yuan, Y. Yao, J. J. Xiao, Y. Yang, J. Tian, and C. Liu, "Experimental and numerical study of high order Stokes lines in Brillouin-erbium fiber laser," Journal of Applied Physics, vol. 115, p. 043102, 2014.
[34] C. Liu, Y. Yao, Y. Yang, Y. Yuan, Y. Zhao, and B. Yu, "Performance of free-space optical communication systems using circle polarization shift keying with spatial diversity receivers," Chinese Optics Letters, vol. 11, p. 20101, 2013.
[33] J. Cao and Y. Yang, "Performance analysis of automatic feedback control for multiple bias voltages in optical quadrature phase-shift keying modulator," Optical Engineering, vol. 52, pp. 025009-025009, 2013.
[32] Y. Yang, C. Lu, A. P. T. Lau, Y. Yao, Y. Sun, J. J. Xiao, et al., "A robust and dither-free technique for controlling driver signal amplitude for stable and arbitrary optical phase modulation," Optics express, vol. 19, pp. 26353-26358, 2011.
[31] J. Yang, C. Yu, Y. Yang, L. Cheng, Z. Li, C. Lu, et al., "PMD-insensitive CD monitoring based on RF clock power ratio measurement with optical notch filter," Photonics Technology Letters, IEEE, vol. 23, pp. 1576-1578, 2011.
[30] Z. Li, Z. Jian, L. Cheng, Y. Yang, C. Lu, A. P. T. Lau, et al., "Signed chromatic dispersion monitoring of 100Gbit/s CS-RZ DQPSK signal by evaluating the asymmetry ratio of delay tap sampling," Optics express, vol. 18, pp. 3149-3157, 2010.
[29] L. Cheng, Z. Li, Y. Yang, C. Lu, L. Liu, L. Zeng, et al., "114-Gbit/s 2SC-NRZ-D8PSK for 50-GHz WDM grid without polarization multiplexing," in OptoeElectronics and Communications Conference (OECC), 2010 15th, 2010, pp. 290-291.
[28] Y. Yang, L. Cheng, Z. Li, C. Lu, Q. Xiong, X. Xu, et al., "An optical differential 8-PSK modulator using cascaded QPSK modulators," ECOC 2009, 2009.
[27] Y. Yanfu, L. Caiyun, Z. Xiaofan, G. Yizhi, and Z. Enyao, "Demultiplexing from 160 Gb/s to 10 Gb/s using nonlinear optical loop mirror," Acta Optica Sinica, vol. 29, pp. 611-616, 2009.
[26] Z. Li, L. Cheng, Y. Yang, C. Lu, A. P. T. Lau, H. Tam, et al., "1500-km SSMF Transmission of Mixed 40-Gb/s CS-RZ Duobinary and 100-Gb/s CS-RZ DQPSK Signals," Photonics Technology Letters, IEEE, vol. 21, pp. 1148-1150, 2009.
[25] L. Cheng, Z. Li, Y. Yang, C. Lu, Y. Fang, H. Jiang, et al., "8 200-Gbit/s polarization-division multiplexed CS-RZ-DQPSK transmission over 1200 km of SSMF," in Proc. OECC, 2009, pp. 13-17.
[24] H.-b. ZHOU, C.-y. LOU, S.-l. PAN, and Y.-f. YANG, "Ultra-short optical pulse source based on phase and intensity hybrid modulation," Journal of Tsinghua University (Science and Technology), vol. 4, p. 022, 2008.
[23] S. Pan, J. Wang, C. Lou, Y. Yang, and W. Dai, "Simple adaptive first‐order PMD compensator using a Faraday rotator and a variable DGD element," Microwave and Optical Technology Letters, vol. 50, pp. 2417-2420, 2008.
[22] Y. Yang, C. Lou, and Y. Gao, "Demonstration of a 16* 10-Gb/s OTDM system," Chinese Optics Letters, vol. 5, pp. 264-266, 2007.
[21] Y. Yang, C. Lou, and Y. Gao, "Novel ultrashort pulse source for measuring the transmission window in an electroabsorption modulator," Optical Engineering, vol. 46, pp. 055004-055004-4, 2007.
[20] Y. Yang, C. Lou, and Y. Gao, "A study of a novel picosecond pulse source based on EAM and fiber-based pulse compressor," Optics communications, vol. 275, pp. 252-256, 2007.
[19] Y. Yang and C. Lou, "Experimental investigation of the influence of filters on regeneration performance in self‐phase modulation based regenerator," Microwave and Optical Technology Letters, vol. 49, pp. 192-195, 2007.
[18] Y. Yang and C. Lou, "High-quality ultrashort pulse generation utilizing a self-phase modulation-based reshaper," Tsinghua Science & Technology, vol. 12, pp. 757-760, 2007.
[17] Z. Xiao-Fan, Y. Yan-Fu, Z. Hong-Bo, L. Cai-Yun, and G. Yi-Zhi, "Influence of degenerate four-wave mixing on the performance of supercontinuum-based multiwavelength optical source," Chinese Physics, vol. 16, p. 1672, 2007.
[16] L. Huo, Y. Yang, C. Lou, and Y. Gao, "High repetition rate optical switch using an electroabsorption modulator in TOAD configuration," Optics & Laser Technology, vol. 39, pp. 964-967, 2007.
[15] Y. Yang, C. Lou, H. Zhou, J. Wang, and Y. Gao, "Simple pulse compression scheme based on filtering self-phase modulation-broadened spectrum and its application in an optical time-division multiplexing system," Applied optics, vol. 45, pp. 7524-7528, 2006.
[14] Y. Yang, C. Lou, J. Wang, L. Huo, and Y. Gao, "Experimental study of NRZ format wavelength conversion using electroabsorption modulator," Optics communications, vol. 260, pp. 571-576, 2006.
[13] Y. Yan-Fu, L. Cai-Yun, F. Yan-Ming, W. Jia-Jun, and G. Yi-Zhi, "A Stable Ultrashort Pulse Generator Based on EAM and Well-Designed Compressor for Applications in 160 Gbit/s OTDM Networks," Chinese Physics Letters, vol. 23, p. 2465, 2006.
[12] J. Wang, S. Pan, J. Jia, Y. Yang, and C. Lou, "PMD compensation based on a new type dynamic first-order PMD compensator," Chinese Optics Letters, vol. 4, pp. 202-204, 2006.
[11] L. Huo, Y. Yang, Y. Nan, C. Lou, and Y. Gao, "A study on the wavelength conversion and all-optical 3R regeneration using cross-absorption modulation in a bulk electroabsorption modulator," Lightwave Technology, Journal of, vol. 24, pp. 3035-3044, 2006.
[10] L. Huo, S. Pan, Y. Yang, C. Lou, and Y. Gao, "PMD mitigation using 3R regeneration based on EAM with wavelength conversion," Chinese Optics Letters, vol. 4, pp. 131-133, 2006.
[9] L. Huo, S. Pan, Z. Wang, Y. Yang, C. Lou, and Y. Gao, "Optical 3R regeneration of 40Gbit/s degraded data signals," Optics communications, vol. 266, pp. 290-295, 2006.
[8] Y. Yang, C. Lou, and J. Wang, "A simple method of generating time division multiplexed pulse trains with correlated and controllable phase," Asia-Pacific Optical Communications, pp. 60212G-60212G-7, 2005.
[7] S. Pan, L. Huo, Y. Yang, C. Lou, and Y. Gao, "First-and second-order PMD mitigation using 3R regeneration," Asia-Pacific Optical Communications, pp. 602108-602108-6, 2005.
[6] Y. Nan, Y. Yang, C. Lou, and J. Wang, "Performance improvement of a supercontinuum continuous-wave optical source," Chinese Optics Letters, vol. 3, pp. S96-S99, 2005.
[5] Y. Nan, C. Lou, J. Wang, L. Huo, and Y. Yang, "Improving the performance of a multiwavelength continuous-wave optical source based on supercontinuum by suppressing degenerate four-wave mixing," Optics communications, vol. 256, pp. 428-434, 2005.
[4] C. Lou, Y. Yang, L. Huo, S. Pan, and Y. Gao, "40 Gb/s all-optical 3 R regeneration," Guangxue Xuebao(Acta Optica Sinica), vol. 25, pp. 1467-1471, 2005.
[3] H. Li, Y. Yan-Fu, P. Shi-Long, L. Cai-Yun, and G. Yi-Zhi, "A Novel 3R Regeneration and Its Application on PMD Mitigation," Chinese Physics Letters, vol. 22, p. 3087, 2005.
[2] L. Huo, Y. Yang, C. Lou, H. Yao, X. Song, and Y. Gao, "Mitigation of signal quality degradation induced by PMD using synchronous modulation," Chinese Optics Letters, vol. 2, pp. 505-507, 2005.
[1] L. Huo, Y. Yang, C. Lou, and Y. Gao, "Demonstration of an 8* 10-Gb/s OTDM system," Chinese Optics Letters, vol. 3, pp. 140-142, 2005.





中文期刊
[5] 曹国亮, 杨彦甫, 王非. “基于扩展卡尔曼的 PDM-16QAM 偏振态和载波相位快速跟踪”, 光学学报, 2014, 34(12): 1206005.
[4] 朱宇鹏, 杨彦甫, 颜丙阳, 钟杰昌,姚勇, "延时干涉结构辅助的电吸收调制波长变换研究," 光子学报, vol. 43, pp. 723004-0723004, 2014.
[3] 朱宇鹏,杨彦甫,颜丙阳,钟杰昌,曹剑超,姚勇. 窄带滤波损伤正交相移键控光信号的质量估计新算法. 光学学报,2013(已录用)
[2] 曹剑超,朱宇鹏,许沐,杨彦甫. (2013) 基于LabVIEW的远程光纤光子学实验平台. 实验室技术与探索.已录用
[1] 曹剑超, 杨彦甫, 朱宇鹏, & 姚勇. (2013). 基于 IQ 光调制的 16-QAM 光发射机多偏置电压反馈控制性能分析. 激光与光电子学进展, 50(6), 60603.

会议论文及发表演说

[4] G. Cao, Y. Yang, K. Zhong, X. Zhou, Y. Yao, et al. “Fast Polarization-State Tracking Based on Radius-Directed Linear Kalman Filter”, OFC2015, Th4F.2,Los Angeles, USA
[3] Guoliang Cao, Yanfu YANG, 'Performance analysis on simultaneous polarization and phase tracking for PDM-16QAM based on extended Kalman filtering', ACP2014, Shanghai
[2] Yan, Shuangyi, Dawei Wang, Yuliang Gao, Chao Lu, Alan Pak Tao Lau, Yupeng Zhu, Yongheng Dai, and Xiaogeng Xu. "Generation of 64-QAM Signals Using a Single Dual-Drive IQ Modulator Driven by 4-level and Binary Electrical Signals." In Optical Fiber Communication Conference. Optical Society of America, 2013.
[1] Yanfu Yang, Linghao Cheng, Zhaohui Li, Chao Lu, Qianjin Xiong, Xiaogeng Xu, Lei Liu, H Y Tam, P K A Wai, “An Optical Differential 8-PSK Modulator Using Cascaded QPSK Modulators” The 35th European Conference on Optical Communication, P3.19, Sep 2009, Vienna, Austria.

任教和任导师经历

  2011级学生毕业去向


曹剑超 华为技术有限公司2012实验室
朱宇鹏 美国内布拉斯加大学林肯分校 攻读博士
钟杰昌 中兴技术有限公司
颜丙阳 深信服
=========================================
2012级学生毕业去向
丛剑 华为技术有限公司
陈俊达 华为技术有限公司
吴炳雄 华为技术有限公司
许沐 中国电子科技集团研究所
=========================================
2013级学生毕业去向
曹国亮 华为技术有限公司上海无线部门
荣宁 华为技术有限公司 深圳
谷健 兵器装备集团某研究中心
崔澜涛 天津移动
=========================================

  在读学生课题

2014级
张红玉 光调制格式识别与性能监测
王浩然 相干光通信解偏振
张群 基于卡尔曼滤波的相干光信号处理算法
王晓瑞 多波长光纤激光器(已发表SCI论文两篇)
===========================================================
2015
蒋雯 高阶光信号相位与偏振跟踪技术(已发表两篇国际会议论文)
何倩雯 圆形QAM光信号相位噪声与传输性能分析
周钟青 高速光收发机设计与关键技术研究
===========================================================
  
  
  
最后更新:2017-10-24 12:15:50