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分类:导师信息 来源:中国考研网 2017-04-14 相关院校:清华大学
张洪明
中国北京市清华大学电子工程系100084
办公地址:罗姆楼 3-209
电话:+86-10-62798321
传真:+86-10-62796567
电子邮箱:zhhm@tsinghua.edu.cn
教育背景1998/09 – 2003/08,清华大学,电子工程系,博士
1993/09 – 1998/07,清华大学,电子工程系,学士
工作履历2008-2015 清华大学电子工程系副教授
2003-2008 清华大学电子工程系讲师
讲授课程:
2004-2015 《激光原理》课程讲授
研究领域可见光通信(LiFi), 大气、水下无线光通信
(研究基于LED光源的、针对室内、室外应用的无线光通信技术)
奖励与荣誉2012年 国防科技进步三等奖
2011年 清华大学电子工程系优秀共产党员
2008年 清华大学优秀班主任二等奖
2006年 清华大学教学成果一等奖
2005年 清华大学优秀教学软件评选一等奖
学术成果[1] 高以智、姚敏玉、张洪明、霍力,《激光原理学习指导》(第二版),国防工业出版社,2014(入选教育部第一批“十二五”本科国家级规划教材书目).
[2] 参与编写《Broadband Optical Modulators: Science, Technology, and Applications》, CRC Press, 2011.
[3] 高以智、姚敏玉、张洪明,《激光原理学习指导》(第一版),国防工业出版社,2007
[4] Guanghua Gong, Hongming Zhang, and Minyu Yao, "Speckle noise reduction algorithm with total variation regularization in optical coherence tomography," Optics Express, 23(19), pp. 24699-24712, 2015.
[5] Changming Xu, Hongming Zhang, and Julian Cheng, "Effects of haze particles and fog droplets on NLOS ultraviolet communication channels," Optics Express 23(18), pp. 23259-23269, 2015.
[6] Bingyan Yu, Hongming Zhang, Hao Dong, “An Optimized 481-Mbit/s Visible Light Communication System using Phosphorescent White LED,” Chinese Optics Letters, 12(11), pp. 1106062014, 2014.
[7] Guanghua Gong, Hongming Zhang, and Minyu Yao, “Construction model for total variation regularization parameter,” Optics Express, 22(9), pp. 10500-10508, 2014.
[8] Hao Dong, Hongming Zhang, Kai Lang, Bingyan Yu, Minyu Yao, “OFDM visible light communication transmitter based on LED ,” Chinese Optics Letters, 12(5), pp. 052301, 2014.
[9] Yang Wang, Hongming Zhang, Qingwei Wu, and Minyu Yao, “Improvement of Photonic ADC Based on Phase-Shifted Optical Quantization by Using Additional Modulators,” IEEE Photonics Technology Letters, 24(7), pp. 566-568, 2012.
[10] Yujie Dou, Hongming Zhang, and Yao Minyu, “Generation of Flat Optical-Frequency Comb Using Cascaded Intensity and Phase Modulators,” IEEE Photonics Technology Letters, 24(9), pp. 727-729, 2012.
[11] Yujie Dou, Hongming Zhang, and Minyu Yao, “Improvement of flatness of optical frequency comb based on nonlinear effect of intensity modulator,” Optics Letters, vol. 36, pp. 2749-2751, 2011.
[12] Hao Nan, Yuantao Gu, and Zhang Hongming, “Optical Analog-to-Digital Conversion System Based on Compressive Sampling,” IEEE Photonics Technology Letters, 23(2), pp. 67-69, 2011.
[13] Yue Peng, Hongming Zhang, Qingwei Wu, Xin Fu, and Minyu Yao, “Adaptive thresholding scheme in photonic analog-to-digital conversion,” Optics Letters, 34(14), pp. 2201-2203, 2009.
[14] Qingwei Wu, Hongming Zhang, Yue Peng, and Minyu Yao, “40GS/s optical analog-to-digital conversion system and its improvement,” Optics Express, 17(11), pp. 9252-9257, 2009.
[15] Yue Peng, Hongming Zhang, Qingwei Wu, Yuancheng Zhang, Xin Fu, Minyu Yao, “Experimental demonstration of all-optical analog-to-digital conversion with balanced detection threshold scheme,” IEEE Photonics Technology Letters, 21(23), pp. 1776-1778, 2009.
[16] Qingwei Wu, Hongming Zhang, Xin Fu, Yue Peng, and Minyu Yao, “Spectral encoded photonic analog-to- digital converter based on cascaded unbalanced MZMs,” IEEE Photonics Technology Letters, 21(4), pp. 224-226, 2009.
[17] Yue Peng, Hongming Zhang, Yuanchun Zhang, and Minyu Yao, “Photonic digital-to-analog converter based on summing of serial weighted multi-wavelength Pulses,” IEEE Photonics Technology Letters, 20(21), pp. 2135-2137, 2008.
[18] Qingwei Wu, Hongming Zhang, Minyu Yao, and Wei Zhou, “All-optical analog-to-digital conversion using inherent multiwavelength phase shift in LiNbO3 phase modulator,” IEEE Photonics Technology Letters, 20(9-12), pp. 1036-1038, May-June 2008.
[19] Meng Yan, Minyu Yao, Hongming Zhang, Li Xia, and Ye Zhang, “En/Decoder for spectral phase-coded OCDMA system based on amplitude sampled FBG,” IEEE Photonics Technology Letters, 20(10), pp. 788-790, May 2008.
[20] Wangzhe Li, Hongming Zhang, Qingwei Wu, Zhuangqian Zhang, and Minyu Yao, “All-optical analog-to-digital conversion based on polarization-differential interference and phase modulation,” IEEE Photonics Technology Letters, 19(8), pp. 625-627, 2007.
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