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Clear Fundus Images Through High-Speed Tracking Using Glare-Free IR Color Technology.

, , , , , , , и . J. Robotics Mechatronics, 34 (5): 1152-1163 (2022)

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Makito Emura

Makito Emura

Makito Emura

Makito Emura

Makito Bernhard Melber

 

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Implantable CMOS image sensor with a neural amplifier for simultaneous recording of optical and electrophysiological signals., , , , , , и . BioCAS, стр. 1-4. IEEE, (2021)A Thin Composite Emission Filter and Fiber Coupled Laser Excitation for Implantable Fluorescence Imager Application., , , , , , и . ISCAS, стр. 1-4. IEEE, (2019)Excitation and Emission Filters for Implantable Fluorescence Imaging Devices by Laser Lift-Off Process., , , , , и . BioCAS, стр. 1-4. IEEE, (2018)Multispectral Near-infrared Imaging Technologies for Nonmydriatic Fundus Camera., , , , , , и . BioCAS, стр. 1-4. IEEE, (2019)Exposure Time Control Method for Higher Intermediate Frequency in Optical Heterodyne Imaging and Its Application to Electric-Field Imaging Based on Electro-Optic Effect., , , , , , , и . Sensors, 24 (4): 1249 (февраля 2024)CMOS-based opto-electric neural interface devices for optogenetics., , , , и . MWSCAS, стр. 377-380. IEEE, (2017)Miniaturized CMOS imaging device for implantable applications., , , , и . VLSI-DAT, стр. 1. IEEE, (2020)Parylene-based flexible imaging device for physiological measurement of rodent brain., , , , , , , и . IEEE SENSORS, стр. 1-3. IEEE, (2017)Development of Compact Readout Device for Neural Observation System using Fluorescence Imaging and Fast-scan Cyclic Voltammetry., , , , , , , , и . EMBC, стр. 4864-4867. IEEE, (2022)Hemodynamic imaging using an implantable self-reset image sensor., , , , , , , и . BioCAS, стр. 452-455. IEEE, (2016)