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Development of a noncontact and long‐term respiration monitoring system using microwave radar for hibernating black bear
Author(s) -
Suzuki Satoshi,
Matsui Takemi,
Kawahara Hiroshi,
Gotoh Shinji
Publication year - 2009
Publication title -
zoo biology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.5
H-Index - 54
eISSN - 1098-2361
pISSN - 0733-3188
DOI - 10.1002/zoo.20229
Subject(s) - hibernation (computing) , respiratory rate , biology , respiratory system , radar , respiration , ventilation (architecture) , respiratory minute volume , zoology , heart rate , meteorology , anatomy , physics , endocrinology , blood pressure , mathematics , telecommunications , state (computer science) , algorithm , computer science
Abstract The aim of this study is to develop a prototype system for noncontact, noninvasive and unconstrained vital sign monitoring using microwave radar and to use the system to measure the respiratory rate of a Japanese black bear ( Ursus thibetanus japonicus ) during hibernation for ensuring the bear's safety. Ueno Zoological Gardens in Tokyo planned to help the Japanese black bear (female, approximately 2 years of age) going into hibernation. The prototype system has a microwave Doppler radar antenna (10‐GHz frequency, approximately 7 mW output power) for measuring motion of the body surface caused by respiratory activity without making contact with the body. Monitoring using this system was conducted from December 2006 to April 2007. As a result, from December 18, 2006, to March 17, 2007, similar behaviors reported by earlier studies were observed, such as sleeping with curled up posture and not eating, urinating or defecating. During this hibernation period and also around the time of hibernation, the prototype system continuously measured cyclic oscillations. The presence of cyclic vibrations at 8‐sec intervals (about 7 bpm) was confirmed by the system before she entered hibernation on December 3, 2006. The respiratory rate gradually decreased, and during the hibernation period the respiratory rate was extremely low at approximately 2 bpm with almost no change. The results show that motion on the body surface caused by respiratory activity can be measured without touching the animal's body. Thus, the microwave radar employed here can be utilized as an aid in observing vital signs of animals. Zoo Biol 28:259–270, 2009. © 2009 Wiley‐Liss, Inc.

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