陳霏現任深圳市智聽科技有限公司CEO。深圳清華大學研究院副教授,副主任研究員。主要研究方向為積體電路設計,套用領域為面向醫療健康的智慧型電路與系統、助聽器械等,特色為將IC設計與深度學習算法和低功耗無線通信技術相融合。擔任IEEE期刊T-BioCAS,T-MTT, TCAS-I、II等審稿人。
基本介紹
- 中文名:陳霏
- 國籍:中國
- 民族:漢
教育背景,工作經歷,科研項目,研究成果,所獲獎勵,出版物,所持專利,所出版的專著,
教育背景
2010~2014年,博士, 清華大學微納電子系
2007~2010年,碩士,加拿大皇后大學(Queen’s University)電子與計算機工程系
2000~2004年,學士,北京郵電大學計算機科學與技術學院
工作經歷
2020.8~今,深圳清華大學研究院 副主任研究員 副教授
2018.7~ 2020.7, 天津大學微電子學院 副教授
2016.12~2018.7 天津大學微電子學院 講師
2014.7~2016.12 天津大學電子信息工程學院 講師
2004.8~2007.7 愛立信(中國)研發總院,工程師
科研項目
主持國家級科研項目兩項(包括自然科學基金和重點研發計畫),省部級科研項目一項。參與國家級863計畫、科技重大專項等項目多項。
1. 主持國家自然科學基金項目:CMOS太赫茲熱探測器機理及關鍵技術研究。
2. 主持國家重點研發計畫納米科技專項:CMOS 兼容的太赫茲源,探測和陣列成像子課題。
3. 主持天津市自然科學基金項目:用於無線助聽器的低功耗超寬頻收發機關鍵技術研究。
4. 參與國家高技術研究發展計畫(863計畫)子課題,高性能SOI二極體型非製冷紅外成像陣列感測器與系統。
5. 參與國家科技重大專項03專項:新一代寬頻無線移動通信網、項目名稱:面向IMT-Advanced等寬頻無線通信系統的射頻晶片、器件與模組研發。
6. 參與國家科技重大專項01專項:核心電子器件、高端通用晶片及基礎軟體產品、項目名稱:自適應多模多頻射頻晶片的關鍵技術研究。
研究成果
在包括IEEE期刊T-BioCAS, T-MTT, Access, MWCL, Sens J, TCAS-II,固態電路頂級會議ISSCC、CICC等在內的期刊會議上發表論文20餘篇。專利授權10餘項。出版專著一部。
所獲獎勵
1.國際會議IEEE ITOEC 2017 最佳論文獎;
2.國際會議IEEE RFIT 2014最佳論文獎。
3.清華大學LAM論文獎一等獎;
4.第九屆深圳創新創業大賽龍崗區一等獎,市賽生物與生命健康行業決賽二等獎。
出版物
[1] Zhuoyi Sun,Yingdan Li,Hanjun Jiang,Fei Chen,Xiang Xie,Zhihua Wang, A Supervised Speech Enhancement Method for Smartphone-Based Binaural Hearing Aids, IEEE Transactions on Biomedical Circuits and Systems, Vol.14, No.5, pp. 951 - 960, 2020.
[2] Yingdan Li,Fei Chen,Zhuoyi Sun,Junyu Ji,Wen Jia,Zhihua Wang, A Smart Binaural Hearing Aid Architecture Leveraging a Smartphone APP With Deep-Learning Speech Enhancement, IEEE Access, Vol.8, pp. 56798 - 56810, 2020.
[3] Yingdan Li,Fei Chen,Zhuoyi Sun,Zhaoyang Weng,Xian Tang,Hanjun Jiang,Zhihua Wang, A Smart Binaural Hearing Aid Architecture Based on a Mobile Computing Platform, Electronics, Vol.8, No.7, pp. 811 - 828, 2020.
[4] Fei Chen,Shuai Wang,Juanjuan Li,Huajun Tan,Wen Jia,Zhihua Wang, Smartphone-Based Hearing Self-Assessment System Using Hearing Aids With Fast Audiometry Method, IEEE Transactions on Biomedical Circuits and Systems, Vol.13, No.1, pp. 170 - 179, 2019.
[5] Fei Chen,Woogeun Rhee,Zhihua Wang, A 5-mW 750-kb/s Noninvasive Transceiver for Around-the-Head Audio Applications, IEEE Transactions on Circuits and Systems II: Express Briefs, Vol.65, No.2, pp. 196 - 200, 2018.
[6] Zhuoyi Sun,Yingdan Li,Hanjun Jiang,Fei Chen,Zhihua Wang, A MVDR- MWF Combined Algorithm for Binaural Hearing Aid System, BioCAS 2018, pp. 1 - 4, 2018.
[7] Yingdan Li,Fei Chen,Zhuoyi Sun,Zhaoyang Weng,Xian Tang,Hanjun Jiang,Zhihua Wang, System architecture of a smart binaural hearing aid using a mobile computing platform, ASICON 2017, pp. 440 - 443, 2017.
[8] Wei Zhang,Yizhi Han,Fei Chen,Bo Zhou,Xican Chen,Woogeun Rhee,Zhihua Wang, A 3.5–4GHz FMCW radar transceiver design with phase-domain oversampled ranging by utilizing a 1-bit ΔΣ TDC, VLSI-DAT 2014, pp. 1 - 4, 2014.
[9] Yu Li,Fei Chen,Dang Liu,Xiaoyong Li,Yang Li,Yudong Zhang,Zhicheng Wang,Woogeun Rhee,Zhihua Wang, A 1.6Mb/s 3.75–4.25GHz chirp-UWB transceiver with enhanced spectral efficiency in 0.18μm CMOS, RFIT 2014, pp. 1 – 3, 2014.
[10] Fei Chen,Yu Li,Dang Liu,Woogeun Rhee,Jongjin Kim,Dongwook Kim,Zhihua Wang, A 1mW 1Mb/s 7.75-to-8.25GHz chirp-UWB transceiver with low peak-power transmission and fast synchronization capability, ISSCC 2014, pp. 162 - 163, 2014.
[11] Yu Li,Fei Chen,Woogeun Rhee,Zhihua Wang, A chirp-UWB transceiver with embedded bulk PPM for energy efficient data transmission, IEEE-IWS 2014, pp. 1 - 4, 2014.
[12] Fei Chen,Wei Zhang,Woogeun Rhee,Jongjin Kim,Dongwook Kim,Zhihua Wang, A 3.8-mW 3.5–4-GHz Regenerative FM-UWB Receiver With Enhanced Linearity by Utilizing a Wideband LNA and Dual Bandpass Filters, IEEE Transactions on Microwave Theory and Techniques, Vol.61, No.9, pp. 3350 - 3359, 2013.
[13] Wei Zhang,Xican Chen,Fei Chen,Woogeun Rhee,Zhihua Wang, A Phase-Domain Delta Sigma Ranging Method for FMCW Radar Receivers, IEEE Transactions on Circuits and Systems II-Express Briefs, Vol.60, No.9, pp. 537 - 541, 2013.
[14] Bo Zhou,Fei Chen,Woogeun Rhee,Zhihua Wang, A Reconfigurable FM-UWB Transceiver for Short-Range Wireless Communications, IEEE Microwave and Wireless Components Letters, Vol.23, No.7, pp. 371 - 373, 2013.
[15] Dang Liu,Fei Chen,Woogeun Rhee,Zhihua Wang, An FM-UWB transceiver with M-PSK subcarrier modulation and regenerative FM demodulation, MWSCAS 2013, pp. 936 – 939, 2013.
[16] Fei Chen,Yu Li,Deyuan Lin,Huiying Zhuo,Woogeun Rhee,Jongjin Kim,Dongwook Kim,Zhihua Wang, A 1.14mW 750kb/s FM-UWB transmitter with 8-FSK subcarrier modulation, CICC 2013, pp. 1 - 4, 2013.
[17] Fei Chen,Wei Zhang,Woogeun Rhee,Jongjin Kim,Dongwook Kim,Zhihua Wang, A 3.8mW, 3.5–4GHz regenerative FM-UWB receiver with enhanced linearity by utilizing a wideband LNA and dual bandpass filters, RFIT 2012, pp. 150 - 152, 2012.
所持專利
[1] 王志華, 陳霏, 李宇根. 助聽裝置: 中國, 201310625422.3[P]. 2016-08-17.
[2] 李宇根, 陳菲, 金鐘珍, 金東郁, 王志華. 用於超寬頻通信的設備和方法: 中國, 201310354498.7[P]. 2017-12-01.
[3] Woogeun Rhee, Fei Chen, Jong Jin Kim, Dong Wook Kim, Zhihua Wang. Apparatus and method for ultra wideband communication using dual band pass filter: 美國, US9172425 B2[P]. 2015-10-27.
所出版的專著
[1] 周波,陳霏. 生物醫療電子系統:能量注入與無線數據傳輸. 北京: 北京理工大學出版社, 2015.
