The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. ex. Some numerals are expressed as "XNUMX".
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The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. Copyrights notice
A importância dos sistemas de monitoramento respiratório durante o sono tem aumentado devido ao diagnóstico precoce da síndrome da apnéia do sono (SAS) no domicílio. Este artigo apresenta um sistema simples de monitoramento respiratório adequado para uso doméstico com alcance de alvos em 3D. A resolução de alcance e a resolução de azimute são obtidas por um sinal de transmissão de frequência escalonada e matrizes MIMO com códigos de sequência M de pares preferenciais modulando duplamente na transmissão e recepção, respectivamente. Devido ao uso desses códigos, os códigos de sequência Gold correspondentes a todas as combinações de antenas são modulados de forma equivalente no receptor. A relação sinal-interferência entre canais da imagem reconstruída é avaliada por simulações numéricas. Os resultados de experimentos em um protótipo desenvolvido de sistema de radar 3D-MIMO mostram que este sistema pode extrair apenas o movimento da respiração de um sujeito humano a 2 m de distância de um refletor metálico giratório. Além disso, descobriu-se que este sistema pode medir com sucesso as informações respiratórias de seres humanos dormindo durante 96.6% de todo o tempo de medição, exceto em casos de grandes mudanças de postura.
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Takashi MIWA, Shun OGIWARA, Yoshiki YAMAKOSHI, "MIMO Radar System for Respiratory Monitoring Using Tx and Rx Modulation with M-Sequence Codes" in IEICE TRANSACTIONS on Communications,
vol. E93-B, no. 9, pp. 2416-2423, September 2010, doi: 10.1587/transcom.E93.B.2416.
Abstract: The importance of respiratory monitoring systems during sleep have increased due to early diagnosis of sleep apnea syndrome (SAS) in the home. This paper presents a simple respiratory monitoring system suitable for home use having 3D ranging of targets. The range resolution and azimuth resolution are obtained by a stepped frequency transmitting signal and MIMO arrays with preferred pair M-sequence codes doubly modulating in transmission and reception, respectively. Due to the use of these codes, Gold sequence codes corresponding to all the antenna combinations are equivalently modulated in receiver. The signal to interchannel interference ratio of the reconstructed image is evaluated by numerical simulations. The results of experiments on a developed prototype 3D-MIMO radar system show that this system can extract only the motion of respiration of a human subject 2 m apart from a metallic rotatable reflector. Moreover, it is found that this system can successfully measure the respiration information of sleeping human subjects for 96.6 percent of the whole measurement time except for instances of large posture change.
URL: https://global.ieice.org/en_transactions/communications/10.1587/transcom.E93.B.2416/_p
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@ARTICLE{e93-b_9_2416,
author={Takashi MIWA, Shun OGIWARA, Yoshiki YAMAKOSHI, },
journal={IEICE TRANSACTIONS on Communications},
title={MIMO Radar System for Respiratory Monitoring Using Tx and Rx Modulation with M-Sequence Codes},
year={2010},
volume={E93-B},
number={9},
pages={2416-2423},
abstract={The importance of respiratory monitoring systems during sleep have increased due to early diagnosis of sleep apnea syndrome (SAS) in the home. This paper presents a simple respiratory monitoring system suitable for home use having 3D ranging of targets. The range resolution and azimuth resolution are obtained by a stepped frequency transmitting signal and MIMO arrays with preferred pair M-sequence codes doubly modulating in transmission and reception, respectively. Due to the use of these codes, Gold sequence codes corresponding to all the antenna combinations are equivalently modulated in receiver. The signal to interchannel interference ratio of the reconstructed image is evaluated by numerical simulations. The results of experiments on a developed prototype 3D-MIMO radar system show that this system can extract only the motion of respiration of a human subject 2 m apart from a metallic rotatable reflector. Moreover, it is found that this system can successfully measure the respiration information of sleeping human subjects for 96.6 percent of the whole measurement time except for instances of large posture change.},
keywords={},
doi={10.1587/transcom.E93.B.2416},
ISSN={1745-1345},
month={September},}
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TY - JOUR
TI - MIMO Radar System for Respiratory Monitoring Using Tx and Rx Modulation with M-Sequence Codes
T2 - IEICE TRANSACTIONS on Communications
SP - 2416
EP - 2423
AU - Takashi MIWA
AU - Shun OGIWARA
AU - Yoshiki YAMAKOSHI
PY - 2010
DO - 10.1587/transcom.E93.B.2416
JO - IEICE TRANSACTIONS on Communications
SN - 1745-1345
VL - E93-B
IS - 9
JA - IEICE TRANSACTIONS on Communications
Y1 - September 2010
AB - The importance of respiratory monitoring systems during sleep have increased due to early diagnosis of sleep apnea syndrome (SAS) in the home. This paper presents a simple respiratory monitoring system suitable for home use having 3D ranging of targets. The range resolution and azimuth resolution are obtained by a stepped frequency transmitting signal and MIMO arrays with preferred pair M-sequence codes doubly modulating in transmission and reception, respectively. Due to the use of these codes, Gold sequence codes corresponding to all the antenna combinations are equivalently modulated in receiver. The signal to interchannel interference ratio of the reconstructed image is evaluated by numerical simulations. The results of experiments on a developed prototype 3D-MIMO radar system show that this system can extract only the motion of respiration of a human subject 2 m apart from a metallic rotatable reflector. Moreover, it is found that this system can successfully measure the respiration information of sleeping human subjects for 96.6 percent of the whole measurement time except for instances of large posture change.
ER -