Brain-Machine Interface Microsensor Technology

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Abstract: This lecture primarily focuses on the development of novel neural micro-nano electrode arrays and systems for brain-machine interfaces, as well as their advancements in the detection and regulation of neural information related to major brain diseases. These devices possess advantages such as miniaturization, high spatiotemporal resolution, multi-channel capabilities, and high sensitivity. As an essential direction in the emerging cross-disciplinary field of electronic information and life health, this technology holds significant scientific importance and widespread application prospects in areas such as brain science, life health, and next-generation artificial intelligence.


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  • Date: 31 Mar 2023
  • Time: 10:30 AM to 11:30 AM
  • All times are (UTC+08:00) Beijing
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  • Room A7 shahe yuan, School of BME, Health Science Center, Shenzhen University Xili Campus, No 1066 Xueyuan Ave
  • No 1066 Xueyuan Ave
  • Shenzhen, Guangdong
  • China 518055
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  • Starts 28 March 2023 10:30 AM
  • Ends 31 March 2023 10:30 AM
  • All times are (UTC+08:00) Beijing
  • No Admission Charge

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Xinxia of Employer

Topic:

Brain-Machine Interface Microsensor Technology

Abstract: This lecture primarily focuses on the development of novel neural micro-nano electrode arrays and systems for brain-machine interfaces, as well as their advancements in the detection and regulation of neural information related to major brain diseases. These devices possess advantages such as miniaturization, high spatiotemporal resolution, multi-channel capabilities, and high sensitivity. As an essential direction in the emerging cross-disciplinary field of electronic information and life health, this technology holds significant scientific importance and widespread application prospects in areas such as brain science, life health, and next-generation artificial intelligence.

Biography:

Xinxia Cai, a distinguished core researcher at the Aerospace Information Innovation Institute of the Chinese Academy of Sciences (Level 2 Professional Technical Position), is a recipient of the National Outstanding Youth Fund, the academic leader of the Micro-Nano Sensing Technology Innovation Research Group, and an expert receiving special allowances from the State Council. She has long been engaged in the research of brain-machine interface neural micro-electrode arrays and other micro-nano biosensors and microsystems. Cai is the principal investigator of the major cross-disciplinary project funded by the National Natural Science Foundation of China, titled "High-resolution sensing and electrical stimulation methods for sleep-wake brain neural activity." She has twice served as the chief scientist leading major national scientific research programs and has been selected for both the National Hundred, Thousand, and Ten Thousand Talents Project and the Beijing Leading Talents in Science and Technology Project. As the lead contributor, she has received the National Technology Invention Second Prize and the China Electronics Society Technology Invention First Prize. Cai has been honored with titles such as the "Three Eight Red Flag Bearer" of the Central State Organs, and the "Outstanding Mentor" of the Chinese Academy of Sciences. She has published 120 SCI papers, received 55 authorized invention patents, and holds 5 software copyrights.

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Address:Room A2-506, School of BME, Health Science Center, Shenzhen University Xili Campus, No 1066 Xueyuan Ave, No 1066 Xueyuan Ave, Shenzhen, China, 518055