Non-contact Doppler radar monitoring of cardiorespiratory motion for Siberian Sturgeon

This paper presents the first reported use of Doppler radar to remotely sense heart and ventilation rates of fish. The Radar reported 35 to 40BPM heart rate and 115 to 145BPM ventilation rates for Siberian Sturgeon, with agreement from a video reference. Conventional fish vital signs measurements re...

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Main Authors: Hafner, N., Massagram, W., Lubecke, V.
Format: Conference Proceeding
Language:English
Subjects:
Biology
Doppler radar
Heart
Monitoring
Physiology
Radar antennas
Radar cross section
Ventilation
Zoology
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creator Hafner, N.
Massagram, W.
Lubecke, V.
description This paper presents the first reported use of Doppler radar to remotely sense heart and ventilation rates of fish. The Radar reported 35 to 40BPM heart rate and 115 to 145BPM ventilation rates for Siberian Sturgeon, with agreement from a video reference. Conventional fish vital signs measurements require invasive surgery and human handling - these are problematic for large scale monitoring, for measuring deep sea fish, and other situations which preclude human interaction with each individual subject. These results show a useful application of radar to augment existing cardiovascular and ventilatory activity sensing techniques and enable monitoring in a wider range of situations.
doi_str_mv 10.1109/EMBC.2012.6346441
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identifier ISSN: 1094-687X
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source IEEE Electronic Library (IEL) Conference Proceedings
subjects Biology
Doppler radar
Heart
Monitoring
Physiology
Radar antennas
Radar cross section
Ventilation
Zoology
title Non-contact Doppler radar monitoring of cardiorespiratory motion for Siberian Sturgeon
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