Education and Work Background
● 2020/5--Present:Department of Biomedical Engineering, Fudan University, Young Associate Researcher
● 2018/1--2020/5:Fudan University Electronic Science and Technology postdoctoral mobile station, postdoctoral
● 2014/9--2018/1:Department of Electronic Engineering, Fudan University, Biomedical Engineering, PhD
● 2012/9--2014/7:Department of Microelectronics, Fudan University, Integrated Circuit Engineering, Master
● 2008/9--2012/7:Electronic Information Science and Technology, College of Physics and Information Technology, Shaanxi Normal University,Bachelor
● Intelligent medical ultrasound: medical signal processing, medical ultrasound imaging and image processing, artificial intelligence information processing, advanced ultrasound photoacoustic detection methods and technical applications, ultrasound rehabilitation physiotherapy technology and applications.
● Medical diagnosis and treatment system: medical ultrasonic diagnosis and treatment system, intelligent medical and medical Internet of things system, intelligent health monitoring system, software and hardware collaborative design of electronic system, SOPC system and FPGA digital logic design, wearable medical embedded system, design of high-speed digital signal processing system based on DSP and FPGA.
Scientific Research Project
● Leader of the sub-project of national Major scientific instrument Development Project
● Original research personalized support projects
● Talent Introduction Program of Fudan University
● Talent Promotion Program of Acoustical Society of China
● Outstanding Sino-foreign Youth Exchange and Cooperation Program of China Association for Science and Technology
● National natural science foundation of China youth fund project, "theory and method research on ultrasonic backscattering to obtain skull acoustics model"
● Shanghai talent development fund
● The 64th batch of general support second-class support for Chinese postdoctoral science foundation
● The 12th batch of Chinese post-doctoral science foundation special grant
● Outstanding Postdoctoral Fellow at Fudan University in 2020
● Special Award for Outstanding Exhibits at China International Industry Fair 2019
● Outstanding Instructor Award for the 14th China Graduate Electronics Design Contest in Shanghai in 2019
● Honorary title of Zhong Yang-style research team of Fudan University in 2019
● 2019 Fudan University's Top Ten and Three Good Graduate Guidance Team
● 2019 47th Geneva international invention "gold medal", (ranked 3/8)
● "excellent product award" of the 20th China international hi-tech fair in 2018
● 2017: Science and technology progress award of the Ministry of Education (second prize), project name: new methods, instruments and applications of ultrasonic diagnosis of skeletal system (ranked 7/10)
● 2016: National college students biomedical engineering innovation design competition (first prize), project name: new bone ultrasonic diagnostic instrument (ranking 1/3)
Ying Li, Boyi Li, Yifang Li, Chengcheng Liu, Feng Xu, Rong Zhang, Dean Ta, Weiqi Wang. The Ability of Ultrasonic Backscatter Parametric Imaging to Characterize Bovine Trabecular Bone. Ultrasonic Imaging. 2019:161734619862190.
Ying Li, Boyi Li, Chen Jiang, Qiangqiang Diwu, Chengcheng Liu, and Dean Ta. Trabecular bone characterization using ultrasonic backscatter parametric imaging. Proceedings of Symposium on Ultrasonic Electronics. 2018, 39: 1-3.
Ying Li, Boyi Li, Feng Xu, Chengcheng Liu, Dean Ta, Weiqi Wang. Ultrasonic backscatter measurements at the calcaneus: an in vivo study. Measurement, 2018, 122: 128-134.
Ying Li, Chengcheng Liu, Feng Xu, Dean Ta. Microstructure Characterization of Cancellous Bone Based on Ultrasonic C-Scan Imaging. IFMBE Proceedings, 2018, 63: 1-5.
Ying Li, Dan Liu, Kailiang Xu, Dean Ta, Lawrence H. Le, Weiqi Wang. Transverse and Oblique Long Bone Fracture Evaluation by Low Order Ultrasonic Guided Waves: A Simulation Study, BioMed Research International, 2017, 3083141.
Ying Li, Feng Xu, Chengcheng Liu, Kailiang Xu, Dean Ta, Weiqi Wang. Estimating mean trabecular bone spacing based on the combination of Hilbert transform and fundamental frequency estimation. Science Foundation in China, 2017, 25(3): 57-71.
Dean Ta; Feng Xu; Li Boyi;Li ying.A flexible ultrasonic treatment probe array is presented. ZL201721464007.4
Dean Ta; Feng Xu; Sun shu xin;Li ying.LuHang;Liu Chengcheng;Wei-qi wang.A low-intensity pulsed ultrasound system for the treatment of osteoporosis. ZL201720106245.1
Dean Ta;Feng Xu; Sun shu xin;Li ying.LuHang;Liu Chengcheng;Wang weiqi, low-intensity pulsed ultrasound osteoporosis therapy instrument, July 23, 2017, China, ZL201710063466.X
Dean Ta;Feng Xu; Li ying.LuHang;Liu Chengcheng;Wang weiqi, a backscatter ultrasound bone diagnosis system based on array probe, 2016.9.7, China, ZL201621040322.X
Dean Ta;Li ying; Feng Xu; LuHang;Liu Chengcheng;Wang weiqi, a backscatter ultrasound bone diagnosis system based on android platform, 2016.9.7, China, ZL201621041537.3
Dean Ta; Feng Xu; Li ying.LuHang;Liu Chengcheng;Wang weiqi, backscattering ultrasound bone diagnosis system, 2016.5.22, China, ZL201620464452.X
Dean Ta; Feng Xu; Li ying.Liu Chengcheng;Wang weiqi, small ultrasound scanning imaging integrated probe system, 2016.3.25 China ZL201620235334.1
