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A synchronous multi-body sensor platform in a Wireless Body Sensor Network: design and implementation.

Gil Y, Wu W, Lee J - Sensors (Basel) (2012)

Bottom Line: Next, we designed and implemented a lightweight, ultra-compact, low cost, low power-consumption Printed Circuit Board.A synchronous multi-body sensor platform is expected to be very useful in telemedicine and emergency rescue scenarios.Furthermore, this system is expected to be able to analyze the mutual effects among body signals.

View Article: PubMed Central - PubMed

Affiliation: Graduate School of Computer Science and Engineering, Pusan National University, Pusan 609-735, Korea. kyzoon@pusan.ac.kr

ABSTRACT

Background: Human life can be further improved if diseases and disorders can be predicted before they become dangerous, by correctly recognizing signals from the human body, so in order to make disease detection more precise, various body-signals need to be measured simultaneously in a synchronized manner.

Object: This research aims at developing an integrated system for measuring four signals (EEG, ECG, respiration, and PPG) and simultaneously producing synchronous signals on a Wireless Body Sensor Network.

Design: We designed and implemented a platform for multiple bio-signals using Bluetooth communication.

Results: First, we developed a prototype board and verified the signals from the sensor platform using frequency responses and quantities. Next, we designed and implemented a lightweight, ultra-compact, low cost, low power-consumption Printed Circuit Board.

Conclusion: A synchronous multi-body sensor platform is expected to be very useful in telemedicine and emergency rescue scenarios. Furthermore, this system is expected to be able to analyze the mutual effects among body signals.

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Related in: MedlinePlus

Environment for actual tests with integrated multi-body sensor platform.
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f6-sensors-12-10381: Environment for actual tests with integrated multi-body sensor platform.

Mentions: Body-signals gathered using the integrated multi-body sensor platform were transferred to a smartphone and a PC through the Bluetooth module. As shown in Figure 6, we analyzed four amplitude frequency responses and four frequency quantities using the PC with a Bluetooth dongle.


A synchronous multi-body sensor platform in a Wireless Body Sensor Network: design and implementation.

Gil Y, Wu W, Lee J - Sensors (Basel) (2012)

Environment for actual tests with integrated multi-body sensor platform.
© Copyright Policy
Related In: Results  -  Collection

License
Show All Figures
getmorefigures.php?uid=PMC3472833&req=5

f6-sensors-12-10381: Environment for actual tests with integrated multi-body sensor platform.
Mentions: Body-signals gathered using the integrated multi-body sensor platform were transferred to a smartphone and a PC through the Bluetooth module. As shown in Figure 6, we analyzed four amplitude frequency responses and four frequency quantities using the PC with a Bluetooth dongle.

Bottom Line: Next, we designed and implemented a lightweight, ultra-compact, low cost, low power-consumption Printed Circuit Board.A synchronous multi-body sensor platform is expected to be very useful in telemedicine and emergency rescue scenarios.Furthermore, this system is expected to be able to analyze the mutual effects among body signals.

View Article: PubMed Central - PubMed

Affiliation: Graduate School of Computer Science and Engineering, Pusan National University, Pusan 609-735, Korea. kyzoon@pusan.ac.kr

ABSTRACT

Background: Human life can be further improved if diseases and disorders can be predicted before they become dangerous, by correctly recognizing signals from the human body, so in order to make disease detection more precise, various body-signals need to be measured simultaneously in a synchronized manner.

Object: This research aims at developing an integrated system for measuring four signals (EEG, ECG, respiration, and PPG) and simultaneously producing synchronous signals on a Wireless Body Sensor Network.

Design: We designed and implemented a platform for multiple bio-signals using Bluetooth communication.

Results: First, we developed a prototype board and verified the signals from the sensor platform using frequency responses and quantities. Next, we designed and implemented a lightweight, ultra-compact, low cost, low power-consumption Printed Circuit Board.

Conclusion: A synchronous multi-body sensor platform is expected to be very useful in telemedicine and emergency rescue scenarios. Furthermore, this system is expected to be able to analyze the mutual effects among body signals.

Show MeSH
Related in: MedlinePlus