杨昉:20年前毕业于华师一,20年后清华大学博导
2021年6月23日,清华大学校友师生团队莅临华师一,在二号报告厅举办了一场专题宣讲活动,活动的主题是“'清清华一’大学认知活动”。我校2019级高二年级长飞班班主任陈春媚老师、长储班班主任阮荣祥老师带领全班学生全程参与了此次活动。本场专题宣讲活动旨在“萃精英、开视野、疑解惑、壮雄心、展鸿鹄”。
宣讲活动由线上和线下两部分组成。线下活动中,清华大学自动化学院(研一)的李舒燕学长、材料学院(大三)的王惊涛学长带领长飞、长储班学生“云旅游”,领略了清华大学深厚的历史底蕴、丰富的校园文化、多彩的学习生活、雄厚的师资力量、多元的学术方向和卓越的学术成就,台下认真聆听的同学们神情专注,心驰神往。
来自清华大学数学系的余成龙老师还为同学们带来了一场别开生面的“数学微课堂”,余老师以欧拉公式引入,通过解析多面体的定点数、棱数和面数之间的隐藏关系,带领同学们研究了拓扑学、物理学等学科中的几个奇妙的计数问题,点燃了同学们钻研数学的热情,也让同学们提前感受到了清华大学自由活泼的教学方式。
2001年毕业于华师一附中的学长杨昉,现任教于清华大学电子工程系。杨老师首先深情回顾了当年在华师一学习、生活、奋斗的美好生活,然后以北斗系统为例,用详尽的数据和深入浅出的讲解,为同学们介绍了清华电子工程系无线光通信领域的最新研究成果及方向。台下的同学们沉浸其中,纷纷惊叹科技的魅力。
线上活动中,清华大学机械工程实验班的孙成恺学长、基科班郭瑞程学长,分享了他们在清华度过的四年大学时光,讲述了作为清华人美好而难忘的回忆。
最后的交流互动环节掀起了活动的新高潮,高二年级长飞班、长储班的同学们踊跃发问,就当下学习生活中的诸多疑惑,向清华师生们求教。例如:在考试频繁、试题海量的高三学习中,如何平衡完成作业与整理知识框架的关系?填报大学志愿时,是兴趣优先还是专业优先?进入清华是否允许理转文?专程回馈母校的清华师生团,对同学们提出的这些问题,知无不言,言无不尽,或联系自身经历事例,或列举身边同学、舍友事例将他们优秀的方法、深刻的感悟、成功的经验倾囊相授,令台下仔细聆听的“长班”同学们受益颇多。
举办本次活动的清华大学校友师生团队,感恩华一,回馈母校,情真意切;参加活动的2019级高二“长班”学子,高山仰止,心有所向,立志奋发。活动结束后,许多“心中有梦、眼里有光”的同学依然围着清华师生团,继续一对一的热烈交流。他们纷纷表示“从清华学长挺直的脊背中,我看见了未来我的模样。”相信深受此次活动激励的2019级高二“长班”同学们,定会以华师一优秀学长们为榜样,树立远大目标,怀鸿鹄之志,扬理想之帆,以更加昂扬的姿态,迎接未来新的挑战!
接下来我们认识一下华师一杰出校友杨昉——
教育背景
2005.09~2009.07, 清华大学,电子工程系,工学博士
2001.09~2005.07, 清华大学,电子工程系,工学学士
工作履历
2018.07~今, 清华大学,电子工程系,副教授
2013.12~2018.07, 清华大学,信息技术研究院,副研究员
2009.07~2013.12, 清华大学,信息技术研究院,助理研究员
学术兼职
IEEE、中国电子学会高级会员
IEICE会员
期刊IEEE Access编委
多个学术会议TPC主席/成员
社会兼职
工信部智能制造综合标准化工作组委员
全国信标委信息技术互联分委会秘书长
全国信标委可持续发展分委会委员
研究领域
广播电视覆盖与组网,电力线通信、无线光通信
研究概况
杨昉,清华大学电子工程系副教授,分别于2005年和2009年在清华大学电子工程系获得工学学士和工学博士学位。近年来,在国内外期刊会议上发表论文120余篇,其中SCI收录60余篇,获得授权发明专利45项, PCT专利2项。相关工作获2015年IEEE广播领域唯一最佳期刊论文奖IEEE Scott Helt Memorial Award。入选中国科协青年人才托举工程,目前是IEEE、中国电子学会高级会员,担任国际电联第六工作组专家、工信部智能制造综合标准化工作组委员、全国信标委信息技术互联分委会秘书长。担任多个国际会议的TPC 主席和委员,并在多个会议作特邀报告,是IEEE Access期刊的副编辑。
面向国家在地面无线数字电视的自主创新需求,针对限制传输性能和覆盖效果的外部环境干扰、内部自身干扰及同频网络干扰等科学问题开展研究。研究成果在地面数字电视产业化中获得广泛应用,《DTMB系统国际化和产业化的关键技术及应用》获国家科技进步一等奖(序10)。
面向国家地面数字电视标准国内普及应用与海外推广的需求,作为第一完成人承担的地面数字电视单频组网与网络优化工作可提升覆盖效果、提高规划效率,在中央广播电视节目无线数字化覆盖工程等海内外项目中发挥重要作用,实现8.4亿元产值,《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(序1)。
针对智慧照明需求,开展多网络异构融合、多域协同信号处理、多维噪声抑制。牵头开展多项电力线、可见光通信国家标准、国际标准。针对智慧照明应用,研究的融合系统实现了照明、通信、电力、定位的“四网合一”,并在国家电网电缆沟、汽轮机监控、室内智慧照明等场景得到初步应用,相关工作获中国光学工程学会创新技术二等奖(序2)。
作为项目负责人承担了科技部国家重点研发计划政府间国际创新合作重点专项(2017YFE0113300) ,国家自然基金青年项目(201401428)、面上项目(201871255)。作为课题负责人承担了国家科技重大专项(2015ZX03002008)、国家智能制造专项(2015ZXB0006)等研究。
奖励与荣誉
1. 2016国家科技进步一等奖(序10 )
2. 2016北京市科技进步三等奖(序1)
3. 2015中国科协青年人才托举工程(2015)
4. 2015中国光学工程学会创新技术二等奖(序2)
5. 2015 中国电子学会科技进步二等奖(序1)
6. 2015 中国电子学会科技优秀工作者
7. 2015 全国信息技术标准化技术委员会标准化工作先进个人
8. 2015 吴文俊人工智能科技进步二等奖(序2)
9. 2014 IEEE Trans. Broadcast. Best Paper Award -- Scott Helt Award(序2)
10. 2013 吴文俊人工智能进步奖二等奖(序1)
学术成果
1. Yaqi Sun, Fang Yang(*), and Ling Cheng, "An overview of OFDM-Based visible light communication systems from the perspective of energy efficiency versus spectral efficiency", IEEE Access, vol. 6, pp. 60824-60833, 2018.
2. Fang Yang(*), Jingbo Tan, Jian Song, and Zhu Han, "Block-wise compressive Sensing based multiple line outage detection for smart grid", IEEE Access, vol. 6, pp. 50984-50993, 2018.
3. Yaqi Sun, Fang Yang(*), and Junnan Gao, "Novel Dimmable Visible Light Communication Approach Based on Hybrid LACO-OFDM," Journal of Lightwave Technology, vol.36, no.20, pp.4942-4951, Oct. 2018.
4. Tengjiao Wang, Fang Yang(*), Ling Cheng, and Jian Song, "Spectral- efficient generalized spatial modulation based hybrid dimming scheme with LACO-OFDM in VLC," IEEE Access, vol. 6, pp. 41153-41162, 2018.
5. Xu Ma, Fang Yang(*), and Jian Song, "Time-angle domain sparsity based MIMO channel estimation approach in high mobility scenarios," IEEE Commun. Lett., vol. 22, no. 9, pp.1946-1949, Sep. 2018.
6. Xu Ma, Fang Yang(*), Sicong Liu, Jian Song, and Zhu Han, "Sparse channel estimation for MIMO-OFDM systems in high-mobility situations," IEEE Trans. Veh. Technol. vol.67, no.7, pp.6113-6124, Jul. 2018.
7. Tengjiao Wang, Sicong Liu, Fang Yang(*), Jintao Wang, Jian Song,and Zhu Han, "Generalized spatial modulation-based multi-user and signal detection scheme for terrestrial return channel with NOMA", IEEE Trans. Broadcast., vol. 64, no.2, pp.211-219, Jun. 2018.
8. Xu Ma, Fang Yang(*), Sicong Liu, and Jian Song, "Channel estimation for wideband underwater visible light communication: a compressive sensing perspective," Optics Express, vol.26, no.1, pp.311-321, Jan. 2018.
9. Fang Yang(*), Yaqi Sun, and Junnan Gao, "Adaptive LACO-OFDM with variable layer for visible light communication," IEEE Photon. J., vol.9, no.6, pp. 7907908, Dec. 2017.
10. Sicong Liu, Fang Yang(*), Jian Song, and Zhu Han, "Block sparse Bayesian learning-based NB-IoT interference elimination in LTE-Advanced systems," IEEE Trans. Commun., vol.65, no.10, pp.4559-4571, Oct. 2017.
11. Sicong Liu, Fang Yang(*), Xianbin Wang, Jian Song, and Zhu Han, "Structured-compressed-sensing-based impulsive noise cancelation for MIMO systems," IEEE Trans. Veh. Technol. , vol.66, no.8, pp.6921-6931, Aug. 2017.
12. Xu Ma, Fang Yang(*), Sicong Liu, Jian Song, and Zhu Han, "Design and optimization on training sequence for mmWave communications: A new approach for sparse channel estimation in massive MIMO," IEEE J. Sel. Areas Commun., vol.65 n.10 pp.4559-4571, Jul. 2017.
13. Yaqi Sun, Fang Yang(*), and Junnan Gao, "Comparison of hybrid optical modulation schemes for visible light communication," IEEE Photon. J., vol.9, no.3, pp.79004213, Jun. 2017.
14. Xu Ma, Fang Yang(*), Sicong Liu, Wenbo Ding, and Jian Song, "Structured compressive sensing-based channel estimation for time frequency training OFDM systems over doubly selective channel," IEEE Wireless Commun. Lett., vol. 6, no. 2, pp. 266-260, Apr. 2017.
15. Fang Yang(*), Junnan Gao, Sicong Liu, and Jian Song, "Clipping noise elimination for OFDM systems by compressed sensing with partially aware support," IEEE Trans. Broadcast., vol. 63, no. 1, pp.103-110 , Mar. 2017.
16. Fang Yang(*), and Junnan Gao, "Dimming control scheme with high power and spectrum efficiency for visible light communications," IEEE Photon. J., vol.9, no.1, pp.7901612, Feb. 2017.
17. Sicong Liu, Fang Yang(*), Wenbo Ding, Jian Song, and Andrea M. Tonello, "Structured compressed sensing based narrowband interference elimination for in-home power line communications," IEEE Consumer Electronic, vol.63, no.1, pp.10-18,Feb. 2017.
18. Xu Ma, Junnan Gao, Fang Yang(*), Wenbo Ding, Hui Yang, and Jian Song, "Integrated power line and visible light communication system compatible with multi-service transmission," IET Commun., vol.11, no.1, pp.104-111, 2017.
19. Sicong Liu, Fang Yang(*), Wenbo Ding, Xianbin Wang, and Jian Song, "Two-dimensional structured-compressed-sensing-based NBI cancelation exploiting spatial and temporal correlations in MIMO systems, " IEEE Trans. Veh. Technol., vol.65, no.11, pp.9020-9028, Nov. 2016.
20. Fang Yang (*), Junnan Gao, and Sicong Liu, “Priori aided compressed sensing based clipping noise cancellation for ACO-OFDM systems,” IEEE Photon. Technol. Lett., vol. 28, no. 19, pp. 2082-2085, Oct. 2016.
21. Xu Ma, Fang Yang(*), Wenbo Ding, and Jian Song, "Novel approach to design time-domain training sequence for accurate sparse channel estimation", IEEE Trans. Broadcast., vol. 62, no.3, pp. 512-520, Sep. 2016.
22. Fang Yang(*), Junnan Gao, and Sicong Liu, “Novel visible light communication approach based on hybrid OOK and ACO-OFDM”, IEEE Photon. Technol. Lett., vol. 28, no. 14, pp. 1585-1588, Jul. 2016.
23. 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,” IEEE J. Sel. Areas Commun., vol. 34, no. 7, pp. 2022-2032, Jul. 2016.
24. Wenbo Ding, Fang Yang(*), Sicong Liu, Xianbing Wang, and Jian Song, "Nonorthogonal time-frequency training-sequence-based CSI acquisition for MIMO systems," IEEE Trans. Veh. Technol., vol. 65, no. 7, pp. 5714-5719, Jul. 2016.
25. Sicong Liu, Fang Yang(*), Wenbo Ding, and Jian Song, "Double kill: Compressive-sensing-based narrow-band interference and impulsive noise mitigation for vehicular communications," IEEE Trans. Veh. Technol. vol. 65, no. 7, pp. 5099-5109, Jul. 2016.
26. Sicong Liu, Fang Yang(*), and Jian Song, "An optimal interleaving scheme with maximum time-frequency diversity for PLC systems," IEEE Trans. Power Delivery, vol. 31, no. 3, pp. 1007-1014, Jun. 2016.
27. Wenbo Ding, Fang Yang(*), Sicong Liu, and Jian Song, "Structured compressive sensing-based non-orthogonal time-domain training channel state information acquisition for multiple input multiple output systems," IET Commun., vol. 10, no. 6, pp. 685- 690, Jun. 2016.
28. 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 Commun., vol.9, no.13, pp.1606-1614, Jul. 2015.
29. Jian Song, Wenbo Ding, Fang Yang, Hui Yang, Bingyan Yu, and Hongming Zhang, "An indoor broadband broadcasting system based on PLC and VLC," IEEE Trans. Broadcast., vol.61, no.2, pp.299-308, Jun. 2015.
30. 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.
31. 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.
32. 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.
33. 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.
34. 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.
35. 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.