Sangjin Han scite author profile

Sangjin Han

4Publications

28Citation Statements Received

38Citation Statements Given

How they've been cited

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Affiliations

Chonnam National University, Chonnam National University Hospital

Publications

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Design of Multi-Wavelength Optical Sensor Module for Depth-Dependent Photoplethysmography

Han

Roh

Park

et al. 2019

Sensors

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The multi-wavelength photoplethysmography sensors were introduced to measure depth-dependent blood volume based on that concept that the longer the light wavelength, the deeper the penetration depth near visible spectrum band. In this study, we propose an omnidirectional optical sensor module that can measure photoplethysmogram while using multiple wavelengths, and describe implementation detail. The developed sensor is manufactured by making a hole in a metal plate and mounting an LED therein, and it has four wavelength LEDs of blue (460 nm), green (530 nm), red (660 nm), and IR (940 nm), being arranged concentrically around a photodetector. Irradiation light intensity was measured by photoluminescent test, and photoplethymogram was measured with each wavelength simultaneously at a periphery of the human body such as fingertip, earlobe, toe, forehead, and wrist, in order to evaluate the developed sensor. As a result, the developed sensor module showed a linear increase of irradiating light intensity according to the number of LEDs increases, and pulsatile waveforms were observed at all four wavelengths in all measuring sites.

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Development of a Multi-Array Pressure Sensor Module for Radial Artery Pulse Wave Measurement

Roh

Han

Park

et al. 2019

Sensors

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This study proposes a new structure for a pressure sensor module that can reduce errors caused by measurement position and direction in noninvasive radial artery pulse wave measurement, which is used for physiological monitoring. We have proposed a structure for a multi-array pressure sensor with a hexagonal arrangement and polydimethylsiloxane that easily fits to the structure of the radial artery, and evaluated the characteristics and pulse wave measurement of the developed sensor by finite element method simulation, a push-pull gauge test, and an actual pulse wave measurement experiment. The developed sensor has a measuring area of 17.6 × 17.6 mm 2 and a modular structure with the analog front end embedded on the printed circuit board. The finite element method simulation shows that the developed sensor responds linearly to external pressure. According to the push-pull gauge test results for each channel, there were differences between the channels caused by the unit sensor characteristics and fabrication process. However, the correction formula can minimize the differences and ensure the linearity, and root-mean-squared error is 0.267 kPa in calibrated output.Although additional experiments and considerations on inter-individual differences are required, the results suggested that the proposed multiarray sensor could be used as a radial arterial pulse wave sensor.

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Photoplethysmographic Pulse Quality Assessment Methods Based on Similarity Analysis

Seok

Han

Park

et al. 2018

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Assessment of Similarity Between Finger and Wrist Photoplethysmography According to the Light Wavelength

Han

Shin

2018

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Sangjin Han

Design of Multi-Wavelength Optical Sensor Module for Depth-Dependent Photoplethysmography

Development of a Multi-Array Pressure Sensor Module for Radial Artery Pulse Wave Measurement

Photoplethysmographic Pulse Quality Assessment Methods Based on Similarity Analysis

Assessment of Similarity Between Finger and Wrist Photoplethysmography According to the Light Wavelength

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