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01-06-2012 | Original Paper

Telemetry Design of a Vital Sign Recording System

Authors: Awad Al-Zaben, Saed N. Al-Refaie, Husam Hamad

Published in: Journal of Medical Systems | Issue 3/2012

Abstract

Blood pressure, respiratory rate, body temperature, and pulse rate are vital signs that under certain pathological conditions require continuous monitoring. In this paper we present a novel design of a system that embeds these signals into a single waveform that can be transmitted without the need for time or frequency division multiplexing. The system depends on changing the frequency of a square wave oscillator. One signal with low frequency contents controls the On-time of the oscillator while the Off-time is controlled by another signal. The third and the fourth signals are used to control voltage controlled oscillators. The voltage controlled oscillators outputs are used as fluctuations during the On-time and during the Off-time. The main advantage of this system is the reduction in circuit complexity in both transmitter and receiver with accurate recovery of the transmitted signals. The design of the proposed system is presented in this paper along with all the corresponding simulations.

Mohseni, P., Najafi, K., Eliades, J., and Wang, X., Wireless Multichannel Bio-potential Recording Using an Integrated FM Telemetry Circuit. IEEE Transactions on Neural, Systems and Rehabilitation Engineering 13(3):263–270, 2005.CrossRef

Jang, B., Wi, S., Yook, J., Lee, M., and Lee, K., Wirless Bio-Radar Sensor for Heartbeat and Respiration Detection. Progress In Electromagnetics Research C 5:149–168, 2008.

Ferrari, V., Ghidini, C., Marioli, D., and Taroni, A., Oscillator-Based Signal Conditioning with Improved Linearity for Resistive Sensors. IEEE Transactions on Instrumentation and Measurements 47(1):293–298, 1998.CrossRef

Mohan, N. M., and Kumar, V. J., A novel signal conditioning circuit for push–pull-type resistive transducers. Measurement Science and Technology 16:1848–1852, 2005.CrossRef

Ferrari, V., Marioli, D., and Taroni, A., Oscillator-Based Interface for Measurand-Plus-Temperature Readout from Resistive Bridge Sensors. IEEE Transactions on Instrumentation and Measurements 49(3):585–590, 2000.CrossRef

Khan, S., Zeki, M., Abdel Hameed, S., Zahirul Alam, A., Abdalla, A., Salami, A., and Lawal, W., Signal Generator Circuit Carrying Information as Embedded Features from Multi-Transducer Signals. Proceedings of World Academy of Science, Engineering, and Technology 36:635–638, 2008.

Nitzan, M., Babchenko, A., and Khanokh, B., Very low frequency variability in arterial blood pressure and blood volume pulse. Medical and Biological Engineering and Computing 37(1):54–58, 1999.CrossRef

Title: Telemetry Design of a Vital Sign Recording System
Authors: Awad Al-Zaben
Saed N. Al-Refaie
Husam Hamad
Publication date: 01-06-2012
Publisher: Springer US
Published in: Journal of Medical Systems / Issue 3/2012
Print ISSN: 0148-5598
Electronic ISSN: 1573-689X
DOI: https://doi.org/10.1007/s10916-010-9569-x

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Telemetry Design of a Vital Sign Recording System

Abstract

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Abstract

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