Title :
Implementation of pulse wave monitoring system using wearable PPG measurement system in daily life
Author :
Sun-A Jeong ; Young-Dong Lee ; Do-Un Jeong ; Gi-Hyun Hwang
Author_Institution :
Dept. of Ubiquitous IT Eng., Dongseo Univ., Busan, South Korea
Abstract :
The conventional Photoplethymosgraphy (PPG) measurements take place where patient is required to clip the photo sensor on the finger and therefore patient´s movement is restricted. In this paper, a wireless ear hook-type PPG measurement system using Bluetooth technology is proposed. The wireless ear hook-type PPG measurement system consists of a photo sensor, a PPG signal conditioning circuit, and an integrated Bluetooth transceiver. Photo sensor is placed on the ear lobe while there is a min i hooker attached to hold the sensor in place. PPG signal sensed from the earlobe is amplified through cascaded amplifiers analog circuits is amplified and then filter using band-pass technique. PPG signal is 12 bits sampling at frequency of 100Hz. An android application is developed for real time and continuous PPG signal monitoring.
Keywords :
Bluetooth; amplifiers; band-pass filters; biomedical communication; image sensors; patient monitoring; photoplethysmography; radio transceivers; signal conditioning circuits; Android application; PPG signal conditioning circuit; PPG signal monitoring; analog circuits; band-pass filter; cascaded amplifiers; frequency 100 Hz; integrated Bluetooth transceiver; patient movement; photoplethysmography; photosensor; pulse wave monitoring system; wearable PPG measurement system; wireless ear hook-type PPG measurement system; word length 12 bit; Bluetooth; Cascade Amplifier; Ear PPG; SmartPhone; Wearable;
Conference_Titel :
Computing and Convergence Technology (ICCCT), 2012 7th International Conference on
Conference_Location :
Seoul
Print_ISBN :
978-1-4673-0894-6
