Classification and Prediction of Respiration Indexes based on Radar System

碩士 === 國立清華大學 === 電機工程學系 === 104 === In recent years, the air pollution and the change of lifestyle enhance the probability of suffering lung disease. Because most of measuring instruments are expensive and placed in hospitals, which are operated with the assistance of the professional. Measuring...

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Main Authors: Hsu, Kung Tuo, 徐功柝
Other Authors: Huang, Yuan Hao
Format: Others
Language:en_US
Published: 2015
Online Access:http://ndltd.ncl.edu.tw/handle/65674450024930731559
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spelling ndltd-TW-104NTHU54420222017-07-30T04:40:40Z http://ndltd.ncl.edu.tw/handle/65674450024930731559 Classification and Prediction of Respiration Indexes based on Radar System 雷達系統用於預測及分類運動肺功能指數 Hsu, Kung Tuo 徐功柝 碩士 國立清華大學 電機工程學系 104 In recent years, the air pollution and the change of lifestyle enhance the probability of suffering lung disease. Because most of measuring instruments are expensive and placed in hospitals, which are operated with the assistance of the professional. Measuring respiration information by radar system were able to provide the convenience for subject and save the travel time to hospital. In this study, we added the automatic position into the FPGA. It can accelerate the measurement time for the subject. First, we record the subject's process of respiration, then extracted respiratory feature by FSLW model. We can use the feature to estimate and judge the condition of the respiratory system. Until now, pulmonary spirometer is one of the main instruments to measure respiratory indexes. We set the indexes as standard value, which are extracted by pulmonary spirometer, and set FSLW's indexes as the input conditions to classify respiratory ability and predict respiratory indexes. Where we use the support vector machine (SVM) to learn and classify respiratory ability, and use the adaptive neuro-fuzzy inference system (ANFIS) to learn and predict respiratory indexes. Through the results of the experiment, it indicated that the proposed the respiratory index extracted by radar system is reliable. We combine the gait system to increase input conditions of SVM and ANFIS. According to the results, the cooperation with gait system has improved the classification accuracy and correlation with pulmonary spirometer. Huang, Yuan Hao 黃元豪 2015 學位論文 ; thesis 61 en_US
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language en_US
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description 碩士 === 國立清華大學 === 電機工程學系 === 104 === In recent years, the air pollution and the change of lifestyle enhance the probability of suffering lung disease. Because most of measuring instruments are expensive and placed in hospitals, which are operated with the assistance of the professional. Measuring respiration information by radar system were able to provide the convenience for subject and save the travel time to hospital. In this study, we added the automatic position into the FPGA. It can accelerate the measurement time for the subject. First, we record the subject's process of respiration, then extracted respiratory feature by FSLW model. We can use the feature to estimate and judge the condition of the respiratory system. Until now, pulmonary spirometer is one of the main instruments to measure respiratory indexes. We set the indexes as standard value, which are extracted by pulmonary spirometer, and set FSLW's indexes as the input conditions to classify respiratory ability and predict respiratory indexes. Where we use the support vector machine (SVM) to learn and classify respiratory ability, and use the adaptive neuro-fuzzy inference system (ANFIS) to learn and predict respiratory indexes. Through the results of the experiment, it indicated that the proposed the respiratory index extracted by radar system is reliable. We combine the gait system to increase input conditions of SVM and ANFIS. According to the results, the cooperation with gait system has improved the classification accuracy and correlation with pulmonary spirometer.
author2 Huang, Yuan Hao
author_facet Huang, Yuan Hao
Hsu, Kung Tuo
徐功柝
author Hsu, Kung Tuo
徐功柝
spellingShingle Hsu, Kung Tuo
徐功柝
Classification and Prediction of Respiration Indexes based on Radar System
author_sort Hsu, Kung Tuo
title Classification and Prediction of Respiration Indexes based on Radar System
title_short Classification and Prediction of Respiration Indexes based on Radar System
title_full Classification and Prediction of Respiration Indexes based on Radar System
title_fullStr Classification and Prediction of Respiration Indexes based on Radar System
title_full_unstemmed Classification and Prediction of Respiration Indexes based on Radar System
title_sort classification and prediction of respiration indexes based on radar system
publishDate 2015
url http://ndltd.ncl.edu.tw/handle/65674450024930731559
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