l Multi-mode multi frequency intelligent active control circuit for InGap/GaAs HBT RF power amplifier, and multi band multi chip (MCM) module wireless network system;
l Low temperature co-fired ceramic (LTCC) flip chip packaging and semiconductor material technology (CMOS, SOI, SiGe BiCMOS, SOS, InGaP/GaAs, GaN).
l High speed signal communication network, signal processing and navigation technology;
l Natural language processing and intelligent tutoring system
LIU Yi received the MS and Ph.D. degrees from Tokyo University of Science, in 1994 and 1997 respectively. He joined the faculty of the Tokyo University of Science, in 1997. Then he worked as a visiting professor at UCLA (University of California, Los Angeles) from 1999 to 2002. After that, he joined Microchip and Microsemi as a senior research fellow.
Currently, he is a Professor and Ph.D. Supervisor at Fudan University and Chinese Academy of Sciences. He has conducted many research projects funded by UCLA, international companies and the Shanghai Foundation. He has received awards including 2012 and 2016 Outstanding Contribution Award of the Chinese-American professor. His research areas include RF signal processing for the next wireless communications and natural language processing for artificial intelligence. (Email: firstname.lastname@example.org)
RF microwave circuit design fundamentals
Wireless Communication Engineering
Analysis and Design of RF Circuits and Systems(美国UCLA研究生一年级课)
“RF circuit design fundamentals” John Wiley Publisher （2016）(英文版)
1）"Design of Bio-inspired Autonomous Error-Tolerant Massively Parallel Computing Architectures， TVLSI-00906-2017," 通信作者
3）Classification of mutichannel surface-electromyography singnals based on convolutional neural networks，The 11th IEEE IFIP WG 8.9 Working Conference，2017
4）Yong-Wei Zhong; Guo-Min Yang; Yi Liu; Li-Rong Zheng, "Optimal design of antenna array for multiple targets microwave power transmission with precise power division ratio control", IET Microw. Antennas Propag., accepted.
5) Yong-Wei Zhong; Guo-Min Yang; Yi Liu; Li-Rong Zheng, "A new design of microstrip antenna array for microwave power transmission", Microw. Opt. Technol. Lett, accepted.
6）Yong-Wei Zhong; Guo-Min Yang; Yi Liu; Li-Rong Zheng, "Optimal design of one-dimension ultra-wideband sparse array for suppression of grating lobes by employing PSO", PIERS 2017, accepted.
8）Ultra Low Loss and High Linearity RF Switch using 130nm SOI CMOS Process Hongwei Zhu1 , Qiuliang Li1,2* , Hao Sun1 , Zhipeng Wang1 , Ran Liu2 , and Yi Liu，IEEE-ASICON 2017
9）“基于RF-SOI设计在5G和IoT上的可重构应用” 李秋良, 刘冉, 刘轶 2017’中国半导体行业协会半导体分立器件分会
10）2014 A linear 180nm SOI CMOS antenna switch module using integrated passive device filters for cellular applications, Journal of semiconductors, LIU YI (通信作者)
11）2013 Design of A Wideband High-power High-linearity InGaP/GaAs HBT Power Amplifier Applied Specifically for 802.11a/ac/16e Global Symposium on Millimeter Waves 2013
12）2013 A High-linearity InGaP/GaAs HBT Power Amplifier for IEEE 802.11a/n Journal of Semiconductor, Vol34, No.6,2013 EI
13）2013 Monolithic Single-pole Sixteen-Throw T/R Switch for Next-generation Front-end Module MTT-S, IEEE Microwave and Wireless
14）2012 Novel Carrier Recovery Scheme in Multi-Carrier Digital TV System International Journal of Communication Systems
15）2013 A LS Estimation Algorithm on Quadrature Modulation Correction Scheme for LTE/WCDMA RF Transceiver. Signal Processing, Communication and Computing, 2013 IEEE International Conference (ICSPCC)
16）Designing Bio-inspired Autonomous Error-Tolerant Massively Parallel Computing Architectures，2017 30th IEEE International System-on-Chip Conference (SOCC)
17）Design of H.265 Fast Intra-frame Mode Decision，Journal of Visual Communication and Image Representation，IEEE 2018，LIUYI (通信作者)
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