清华大学|信息学院|国家实验室|English Version

杨昉

杨昉.jpg

    副研究员
数字电视技术研究中心
通信地址:北京市海淀区清华大学信息技术研究院    邮政编码:100084
联系电话: 010-62795221  
Email
fangyang@tsinghua.edu.cn

教育背景

20019月至20057 在清华大学电子工程系电子信息工程专业学习,获工学学士学位(清华大学优秀毕业设计)

20059月至20097 在清华大学电子工程系信息与通信工程专业学习,获工学博士学位(清华大学优秀博士论文)

工作履历

20097月至201312   清华大学 信息技术研究院 助理研究员

20141月至今             清华大学 信息技术研究院 副研究员

学术兼职

2015年10月至今   信标委信息技术设备互连分技术委员会      秘书长

2014年12月至今   工信部智能制造综合标准化工作组          委员

2014年3月至今    中国电子学会                            教育工作委员会委员

2014年4月至今    信标委信息技术与可持续发展分技术委员会  委员

2015年2月至今    中国电子音响行业协会                    专家委员会委员

2013年7月至今    《电力信息与通信技术》杂志              编委会委员

2013年3月至今     ITU-R 6A (国际电联数字电视组)            中国专家组成员

2013年3月至今     ATSC(美国高级电视标准委员会)          仿真组成员

2009年9月至今     IEEE                                    IEEE Senior Member

2009年10月至今    IEICE                                   IEICE Member

2013年7月至今     中国电子学会                           高级会员

研究领域

[1] 地面数字电视传输
    研究多业务传输技术,单频网组网与网络优化技术。
[2] 电力线通信
    研究窄带干扰和冲击噪声估计与消除、高性能编码调制方案、陷波技术与新型帧结构、非接触式测量与拓扑感知。
[3] 可见光与电力线融合通信技术测控装置与系统

    
研究融合信道测量与建模、深度融合网络架构、适应于可见光通信的新型帧结构、照通一体方案、多业务融合方法。

研究概况

科研项目

[1]  青年人才托举工程,中国科协,2016-2018

[2]  工业互联网架构标准化与试验验证系统, 国家智能制造专项, 2016 -2018;

[3]  IMT-2020候选频段分析与评估,宽带无线通信网重大专项,2015-2017

[4]  宽带电力线与可见光结合通信技术研究,自然科学基金,2015-2017

[5]  VLCPLC深度融合理论和关键技术研究,清华大学自主科研,2015-2017

[6] 基于AVS+标准的地面数字电视接收终端、有线数字电视一体机研发与应用,工信部电子产业发展基金,2013-2015;

[7] 室内宽带电力线通信技术研究与产业化样机开发,长虹电器股份有限公司,2012-2013;

[8] 电力线通信芯片算法及电路,国网信息通信公司,2011-2012;

[9]符合DTMB标准、基于自主研发芯片解决方案的地面数字电视接收机研发及产业化,工信部电子产业发展基金,2011-2013;

[10] 符合DTMB/AVS/DRA标准的数字电视一体机研发及产业化,工信部电子产业发展基金,2010-2012;

 

奖励与荣誉

2016  入选中国科协青年人才托举工程;

2015  IEEE Scott Helt Memorial AwardIEEE BTS唯一最佳期刊论文);

2015  “地面数字电视单频网组网与网络优化关键技术及应用”获中国电子学会科技进步二等奖(排名第一);

2015  “基于人工智能的智能家庭云系统”获中国人工智能学会科技进步二等奖(排名第二);

2015  “可见光通信与电力线通信深度融合框架及关键技术”获中国光学工程学会科技创新二等奖(排名第二);

2015  获中国电子学会“优秀科技工作者”;

2015  获工信部“国际电信联盟优秀文稿” (排名第二);

2014  DTMB国际标准开发及产业化与海外推广应用”获中国电子学会二等奖;

2014  DTMB标准国际化关键技术及应用”获北京市科学技术一等奖;

2013  “地面数字电视单频网智能化组网规划方法”获中国人工智能学会吴文俊人工智能进步二等奖(排名第一);

2012 “基于Android操作系统的全业务电视一体机”获中国电子学会科学技术三等奖(排名第二);

2011 获中国广播电视设备工业协会“科技创新优秀个人奖”;

2011 “增强型全模式多带宽DTMB信道调制器”获中国广播电视设备工业协会科技创新特等奖(排名第二)。

 

学术成果

专著

杨昉,何丽峰,潘长勇,OFDM原理与标准:通信技术演进,电子工业出版社,2013.

 

主要期刊论文

[1]  Fang Yang, Junnan Gao, and Sicong Liu, “Novel visible light communication approach based on hybrid OOK and ACO-OFDM,” to appear in IEEE Photonics Technology Letters.

[2] Wenbo Ding, Fang Yang, Sicong Liu, and Jian Song,“Structured compressive sensing based non-orthogonal time-domain training CSI acquisition for MIMO systems,”  to appear in IET Communications.

[3] Xu Ma, Fang Yang, Wenbo Ding, and Jian Song, “Novel approach to design time-domain training sequence for accurate sparse channel estimation,” to appear in IEEE Trans. Broadcast.

[4] Wenbo Ding, Yang Lu, Fang Yang, Wei Dai, Pan Li, Sicong Liu, and Jian Song, “Spectrally efficient CSI acquisition for power line communications: a Bayesian compressive sensing perspective,” to appear in IEEE Journal on Selected Areas in Communications.

[5] Sicong Liu,  Fang Yang, Wenbo Ding, Xianbin Wang, and Jian Song, “2D structured compressed sensing based NBI cancellation exploiting spatial and temporal correlations in MIMO systems,” to appear in IEEE Trans. Vech. Technol.

[6] Wenbo Ding, Fang Yang, Sicong Liu, Xianbing Wang, and Jian Song, " Non-orthogonal time-frequency training sequence based CSI acquisition for MIMO systems," to appear in IEEE Trans. Vech. Technol.

[7] Sicong Liu, Fang Yang, Wenbo Ding, and Jian Song, "Double kill: Compressive sensing based narrowband interference and impulsive noise mitigation for vehicular communications," to appear in IEEE Trans. Vech. Technol.

[8] Sicong Liu, Fang Yang, and Jian Song, "An optimal interleaving scheme with maximum time-frequency diversity for PLC systems," to appear in IEEE Trans. Power Delivery.

[9] Tao Cheng, Kewu Peng, Fang Yang, Jian Song, and Zhixing Yang, "A near-capacity MIMO coded modulation scheme for digital terrestrial television broadcasting," IEEE Trans. Broadcast., vol.61, no.3, pp.367-375, Sep. 2015.

[10] Wenbo Ding, Fang Yang, Sicong Liu, and Jian Song, "Approach to suppress out-of-band emission for dual pseudo noise padded time-domain synchronous-orthogonal frequency division multiplexing systems," IET Communications, vol.9, no.13, pp.1606-1614, July 2015.

[11] Wenbo Ding, Fang Yang, Sicong Liu, and Jian Song, "Approach to suppress out-of-band emission for dual pseudo noise padded time-domain synchronous-orthogonal frequency division multiplexing systems," IET Communications, vol.9, no.13, pp.1606-1614, July 2015.

[12] Wenbo Ding, Fang Yang, Hui Yang, Jintao Wang, Xiaofei Wang, Xun Zhang, Song, Jian"A hybrid power line and visible light communication system for indoor hospital applications," Computers in Industry, vol.68, pp 170-178, Apr. 2015.

[13] Keqian Yan, Kewu Peng, Fang Yang, and Jian Song, "Non-uniform APSK optimization for BICM systems," Tsinghua Science and Technology, vol.20, no.2, pp.175-181, Apr. 2015.

[14] Sicong Liu, Fang Yang, Chao Zhang, and Jian Song, "Narrowband interference mitigation based on compressive sensing for OFDM systems," IEICE Trans. Funda., vol.E98-A, no.3, pp.870-873, Mar. 2015.

[15] Sicong Liu, Fang Yang, and Jian Song, "Narrowband interference cancellation based on priori aided compressive sensing for DTMB systems," IEEE Trans. Broadcast., vol.61, no.1, pp.66-74, Mar. 2015.

[16] Wenbo Ding, Fang Yang, Wei Dai, and Jian Song, "Time-frequency joint sparse channel estimation for MIMO-OFDM systems," IEEE Commun. Lett., vol. 19, no. 1, pp. 58-61, Jan. 2015.

[17] Wenbo Ding, Fang Yang, Jian Song, and Zhisheng Niu, "Energy-efficient orthogonal frequency division multiplexing scheme based on time-frequency joint channel estimation, " IET Commun., vol. 8, no. 18, pp. 3406-3413, Dec. 2014.

[18] Jiacheng Huang, Kewu Peng, Changyong Pan, Fang Yang, Huanging Jin, "Scalable video broadcasting using bit division multiplexing," IEEE Trans. Broadcast., vol. 60, no. 4, pp. 701-706, Dec. 2014.

[19] Wenbo Ding, Fang Yang, Changyong Pan, Linglong Dai, and Jian Song, "Compressive sensing based channel estimation for OFDM systems under long delay channels," IEEE Trans. Broadcast., vol. 60, no. 2, pp. 313-321, Jun. 2014.

[20] Fang Yang, Keqian Yan, Changyong Pan, and Jian Song, PAPR reduction for systems using SRRC filters based on modified ACE, IEICE Trans. Funda., Vol. E96-A, No. 7, pp. 1675-1677, July 2013.

[21] Fang Yang, Keqian Yan, Qiuliang Xie, and Jian Song, Non-equiprobable APSK constellation labeling design for BICM systems, IEEE Commun. Letter, Vol. 17, No. 6, pp. 1276-1279, June 2013.

[22] Keqian Yan, Fang Yang, Changyong Pan, and Jian SongReception quality prediction in a single frequency network for the DTMB standardIEEE Trans. Broadcast., Vol. 58, No. 4, pp. 629-636, Dec. 2012.

[23] Xiao Zhou, Fang Yangand Jian SongNovel transmit diversity scheme for TDS-OFDM system with frequency-shift m-sequence paddingIEEE Trans. Broadcast., Vol.58, No.2, pp.317-324, Jun. 2012.

[24] Keqian Yan, Tao Chen, Fang Yang, Kewu Peng, and Jian Song, Improved design of bit mapping based on EXIT-chart analysis for DVB-T2 system, IEEE Trans. on Consumer Electronics, Vol.57,No.4, pp.1579-1585, Nov. 2011.

[25] Xiao Zhou, Fang Yang, and Jian Song, A novel noise suppression method in channel estimation, IEICE Trans. Funda., Vol.E94-A, No.10, pp.2027-2030, Oct, 2011.

[26] Lifeng He, Fang Yang, and Zhaocheng Wang, Robust physical layer signaling transmission over OFDM systems, IEICE Trans. Commun., Vol.E94–B, No.11, pp.2900-2902, Oct. 2011.

[27] Bing Han, Jian Song, Hui Yang, and Fang YangA measurement method of the DTMB modulator, IEEE Trans. Broadcast., Vol.57, No.3, pp.745-751, Sep. 2011.

[28] Zhixing Yang, Xiaoqing Wang, Fang Yang, Novel approach to support multimedia services over Chinese DTMB system,IEEE Trans. Broadcast., Vol.57, No.3, pp.737-744, Sep.2011.

[29] Zhenyu Liu, Fang Yang, and Jian Song, Novel channel estimation method based on training sequence cyclic reconstruction for TDS-OFDM systemIEICE Trans. Commun., Vol.E94-B, No.7, pp.2158-2160, July 2011.

[30] Lifeng He, Zhaocheng Wang, Fang Yang, Sheng Chen, Lajos Hanzo, Preamble design using embedded signaling for OFDM broadcast systems based on reduced- complexity distance detectionIEEE Trans. Vehicular Technology, Vol. 60, No. 3, pp.1217-1222, March 2011.

[31] QiuliangXie, Jian Song, KewuPeng, Fang Yang, and ZhaochengWang. Coded modulation with signal spacediversity, IEEE Trans. Wireless Commun., Vol.10, No.2, pp.660-669, Feb. 2011.

[32] Qiuliang Xie, Kewu Peng, Fang Yang, Zhaocheng Wang, and Zhixing Yang, BICM-ID with 3-dimensional BPSK and signal space diversity over Rayleigh channel, IEICE Trans. on Commun.,Vol.E94-B,No.1,pp.282-284,Jan. 2011.


主要会议论文

[1] Sicong Liu, Fang Yang, Wenbo Ding, Jian Song"NBI Cancellation for Smart Grid Communications: A Block Sparse Bayesian Learning Perspective" to be appear in Proc. IEEE ICC 2016.

[2] Wenbo Ding, Fang Yang, Sicong Liu, Jian Song, "Spectrally efficient CSI acquisition approach for large-scale MIMO systems," in Proc. IEEE Globecom Workshop 2015.

[3] Xu Ma, Fang Yang, Wenbo Ding, Jian Song, "A study of training sequence design for channel estimation based on compressive sensing," in Proc. IEEE Globecom Workshop 2015.

[4] Sicong Liu, Fang Yang, Wenbo Ding, Jian Song, Jianqi Li, Weilin Liu, "Structured compressed sensing based NBI recovery for MIMO WLAN systems," in Proc. IEEE Globecom Workshop 2015.

[5] Sicong Liu, Fang Yang, Wenbo Ding, and Jian Song, Structured compressive sensing based narrowband interference mitigation for vehicular communications, in Proc. ICC Workshop 2015.

[6] Wenbo Ding, Yang Lu, Fang Yang, Wei Dai, and Jian Song, "Sparse channel state information acquisition for power line communications," in Proc. IEEE ICC 2015.

[7] Wenbo Ding, Fang Yang, Chao Zhang, Linglong Dai, and Jian Song, "Simultaneous time-Frequency channel estimation based on compressive sensing for OFDM system," in Proc. IEEE Globecom 2014.

[8] Sicong Liu, Fang Yang, and Jian Song, "Compressive sensing based narrowband interference cancellation for power line communication systems," in Proc. IEEE Globecom 2014.

[9] Fang Yang, Wenbo Ding, Linglong Dai, and Jian Song, "Joint time-frequency channel estimation method for OFDM systems based on compressive sensing," in Proc. URSI GASS 2014.

[10] Sicong Liu, Fang Yang, Jian Song, Jianqi Li, and Weilin Liu, "An optimized time-frequency interleaving scheme for OFDM-based power line communication systems, " in Proc. IEEE ICC 2014.

[11] Keqian Yan, Fang Yang, Jian Song, Fei Ren, and Jia Li, "A framework of APSK constellation labeling design for satellite transmission," in Proc. IEEE ICC 2014.

[12] Jian Song, Keqian Yan, Fang Yang, Qiuliang Xie, Fei Ren, and Jia Li, Coded modulation with APSK constellations for power line communication, in Proc. IEEE ICC 2013.

[13] Fang Yang, Wenbo Ding, and Jian Song, Non-intrusive power line quality monitoring based on power line communications, in Proc. ISPLC 2013.

[14] Lifeng He, Zhaocheng WangFang YangSheng Chen, and LajosHanzoA novel preamble design for OFDM transmission parameter signallingin Proc. ICC2011, May 2011.

[15] QiuliangXie, Kewu Peng, Fang Yang, and Zhaocheng Wang, BICM-ID systems with signal space diversity over Rayleigh fading channels, in Proc.  IEEE Globecom, 2010.

 

专利

[1] 杨昉、李昭奇、潘长勇、高俊男,一种抑制灯间干扰的可见光通信方法和装置,申请号  

[2] 杨昉、高俊男、宋健,面向调光控制的可见光通信方法与装置,申请号2016102797766.7

[3] 杨昉、李昭奇、高俊男、宋健,基于可见光通信的室内定位方法和定位系统,申请号201610248297.2

[4] 杨昉、高俊男、潘长勇基于双极性信号的可见光通信方法与装置,申请号201610216618.0 

[5] 杨昉、马旭、彭克武、刘玥、宋健,面向子载波数可变系统的编码调制方法和系统,申请号201610173417.7

[6] 杨昉、高俊男、宋健、丁文伯,ACO-OFDM系统的限幅噪声消除方法及装置,申请号201510435451.2

[7] 杨昉、高俊男、丁文伯、宋健,融合OOK调制和OFDM调制的可见光通信方法及装置,申请号201510425084.8.

[8] 杨昉、高俊男、宋健、丁文伯, 基于压缩感知的限幅噪声估计与消除方法及装置, 申请号201510288223.7.

[9] 杨昉、刘思聪、高俊男、宋健, 基于时间相关性和结构化压缩感知的窄带干扰估计方法, 申请号201510202349.8.

[10] 杨昉、丁文伯、宋健、刘思聪, 基于时域训练序列的信道估计的方法及系统、天线, 中国发明专利201510201528.X.

[11] 杨昉、丁文伯、宋健、马旭,基于非正交导频的时频联合的信道估计方法及系统、天线,申请号201510201201.2.

[12] 杨昉、高俊男、刘思聪、宋健、陆建华, 冲激噪声消除方法及装置, 申请号201510201105.8.

[13] 杨昉、高俊男、彭克武、丁文伯、宋健,兼容传输和定位的可见光与电力线融合的通信方法和装置,申请号201510102570.6.

[14] 杨昉、马旭、宋健、阳辉,电力线和可见光融合的通信方法与系统,申请号201410555565.6.

[15] 杨昉、马旭、宋健、阳辉、潘长勇,支持数据传输和定位的可见光与电力线通信方法和装置,申请号201410555564.1.

[16] 杨昉、颜克茜、彭克武、宋健、马旭, 支持比特加载及比特映射的编码调制方法及系统,申请号201410542566.7.

[17] 杨昉、马旭、彭克武、宋健,基于电力线通信的电力线网络拓扑感知方法及装置,申请号201410432940.8.

[18] 杨昉、刘思聪、张超、宋健、王劲涛,一种基于压缩感知的冲激噪声估计与消除方法及装置,申请号201410140839.5

[19] 杨昉、刘思聪、宋健、潘长勇,一种基于压缩感知的窄带干扰估计和消除方法及装置,申请号201410006974.0.

[20] 杨昉、刘思聪、宋健、潘长勇,基于先验信息辅助的压缩感知窄带干扰估计方法及装置,申请号201410007442.9.

[21] 杨昉、丁文伯、宋健、潘长勇,一种基于压缩感知的时频联合信道估计方法及装置,申请号201410003290.5.

[22] 杨昉、段海宁、潘长勇、宋健,一种适用于地面数字电视单频网的组网方法,申请号 201310722858.4.

[23] 杨昉、刘思聪、宋健、彭克武,电力线通信系统中基于OFDM的多频组网方法及装置,申请号 201310395712.3.

[24] 杨昉、刘思聪、宋健、阳辉、牛志升,用于正交频分复用通信的交织方法及装置,申请号201310153729.8.(授权2015.09.30)

[25] 杨昉、刘思聪、潘长勇、宋健, 数字通信系统中的帧同步序列生成方法及装置,中国发明专利,申请号 201310037606.8.

[26] 杨昉、丁文伯、潘长勇、宋健,TDS-OFDM中功率受限频段的功率抑制方法及装置,中国发明专利,申请号201310027786.1.

[27] 杨昉、丁文伯、宋健、阳辉, 基于非对等训练序列填充块传输系统的迭代信道估计方法及装置, 中国发明专利,申请号201210529973.5 .

[28] 杨昉、颜克茜、宋健、薛永林, 一种基于APSK星座图的非等概星座映射方法,中国发明专利,申请号201210518605.0. (授权2015.05.20)

[29] 杨昉、潘长勇、丁文伯、阳辉、宋健, 时域同步正交频分复用系统的时域加窗方法及装置,中国发明专利,申请号201210460943.3.

[30] 杨昉、丁文伯、张超、宋健、阳辉,电力线通信系统中网络负载匹配平衡的调节方法及其装置,中国发明专利,申请号201210392765.5. (授权2014.12.31)

[31] 杨昉、宋健、张奇、王军、阳辉,电力线和无线混合通信方法及其装置,中国发明专利,申请号201210252192.6. (授权2015.4.15)

[32] 杨昉、颜克茜、丁文伯、潘长勇,预测多径信道传输中接收机的接收性能的方法,中国发明专利,申请号201110028959.2(授权2013.06.05)

[33] 杨昉、周晓,基于置信度的抑制信道估计结果中噪声的方法及装置,中国发明专利,申请号201010230049.8(授权2012.12.26)

[34] 杨昉、王晓晴、宋健、王劲涛、张彧,星座图受限的扩展编码调制方法、解调解码方法及其系统,中国发明专利,申请号201010176239.6(授权2013.01.30)

[35] 杨昉、刘振玉、阳辉、宋健、王昭诚,基于训练序列重构的信道估计方法及系统,中国发明专利,申请号201010141276.3(授权2013.01.30)

[36] 杨昉,王昭诚,何丽峰,彭克武,杨知行,一种数字通信系统中帧同步序列的生成方法及装置,中国发明专利,申请号200910241677.3(授权2012.10.10)

[37] 杨昉,何丽峰,彭克武,宋健,杨知行,发射分集方法、信道估计方法及系统,中国发明专利,申请号200910237354.7.(授权2014.01.22)

[38] 杨昉,何丽峰,杨知行,彭克武,数字信号传输方法及系统,中国发明专利,申请号200910090189.7(授权2011.11.09)


【发布时间:2013-04-10】【浏览次数:8977】