The Biomedical Signal Processing Combined with Internet of Things

博士 === 國立高雄應用科技大學 === 電子工程系 === 106 === Congenital septal defect (CSD) is one type of heart diseases which take a portion in causing death. The presences of CSD can be detected since early birth which requires expensive devices. For a small clinic in a remote area or in the island of developing...

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Main Authors: Aripriharta, 安培興
Other Authors: Gwo-Jia Jong
Format: Others
Language:en_US
Published: 2017
Online Access:http://ndltd.ncl.edu.tw/handle/yffwnt
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spelling ndltd-TW-106KUAS03930022019-05-15T23:53:21Z http://ndltd.ncl.edu.tw/handle/yffwnt The Biomedical Signal Processing Combined with Internet of Things 物聯網整合生醫訊號處理 Aripriharta 安培興 博士 國立高雄應用科技大學 電子工程系 106 Congenital septal defect (CSD) is one type of heart diseases which take a portion in causing death. The presences of CSD can be detected since early birth which requires expensive devices. For a small clinic in a remote area or in the island of developing country, the medical resources are limited. To fill this gap, this dissertation aims to develop a biomedical signal processing algorithm for hole size diagnosis on people with CSD remotely by means of Internet of Things (IoT). Heart sounds (HS) contains information about diseases which can be extracted using signal processing approaches. Thus, this dissertation is focused on the hole size diagnosis from the HS with CSD cases. Unlike the former approaches which used feature extraction and selection, a novel approach based on the autocorrelation of the second sounds (S2) per segment and cross correlation of the first (S1) and S2 sounds per segment is presented in this dissertation. The main contributions of this dissertation are: (1) a novel automatic hole size diagnosis on CSD called Average Distance Scattered Atom of Eigen Values (ADSAE), (2) a new algorithm for HS data gathering via IoT, which called Cognitive Multi Input Multi Output (CogMIMO). The CogMIMO integrated the Queen Honey Bee Migration (QHBM) and Cooperative MIMO (CMIMO) to improve the network longevity and shorten the delay. The ADSAE was tested on the two types of CSD. The performances are compared with Support Vector Machine (SVM), Fuzzy Clustering (FC) and Ellipse Model (EM). Based on the obtained results the ADSAE performs better in diagnosing hole size of CSD in terms of accuracy and F1 scores. In addition, the CogMIMO also surpass the Single Input Single Output (SISO), Multi Input Single Output (MISO), and CMIMO in terms of network longevity and delay. Gwo-Jia Jong 鐘國家 2017 學位論文 ; thesis 119 en_US
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description 博士 === 國立高雄應用科技大學 === 電子工程系 === 106 === Congenital septal defect (CSD) is one type of heart diseases which take a portion in causing death. The presences of CSD can be detected since early birth which requires expensive devices. For a small clinic in a remote area or in the island of developing country, the medical resources are limited. To fill this gap, this dissertation aims to develop a biomedical signal processing algorithm for hole size diagnosis on people with CSD remotely by means of Internet of Things (IoT). Heart sounds (HS) contains information about diseases which can be extracted using signal processing approaches. Thus, this dissertation is focused on the hole size diagnosis from the HS with CSD cases. Unlike the former approaches which used feature extraction and selection, a novel approach based on the autocorrelation of the second sounds (S2) per segment and cross correlation of the first (S1) and S2 sounds per segment is presented in this dissertation. The main contributions of this dissertation are: (1) a novel automatic hole size diagnosis on CSD called Average Distance Scattered Atom of Eigen Values (ADSAE), (2) a new algorithm for HS data gathering via IoT, which called Cognitive Multi Input Multi Output (CogMIMO). The CogMIMO integrated the Queen Honey Bee Migration (QHBM) and Cooperative MIMO (CMIMO) to improve the network longevity and shorten the delay. The ADSAE was tested on the two types of CSD. The performances are compared with Support Vector Machine (SVM), Fuzzy Clustering (FC) and Ellipse Model (EM). Based on the obtained results the ADSAE performs better in diagnosing hole size of CSD in terms of accuracy and F1 scores. In addition, the CogMIMO also surpass the Single Input Single Output (SISO), Multi Input Single Output (MISO), and CMIMO in terms of network longevity and delay.
author2 Gwo-Jia Jong
author_facet Gwo-Jia Jong
Aripriharta
安培興
author Aripriharta
安培興
spellingShingle Aripriharta
安培興
The Biomedical Signal Processing Combined with Internet of Things
author_sort Aripriharta
title The Biomedical Signal Processing Combined with Internet of Things
title_short The Biomedical Signal Processing Combined with Internet of Things
title_full The Biomedical Signal Processing Combined with Internet of Things
title_fullStr The Biomedical Signal Processing Combined with Internet of Things
title_full_unstemmed The Biomedical Signal Processing Combined with Internet of Things
title_sort biomedical signal processing combined with internet of things
publishDate 2017
url http://ndltd.ncl.edu.tw/handle/yffwnt
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