Weighted Summation: Feature Extraction of Farm Pigsty Data for Electronic Nose

Weighted Summation: Feature Extraction of Farm Pigsty Data for Electronic Nose

When an electronic nose (e-nose) is used for prediction, extracting more useful information from the original response curve is of great importance. However, the most traditional feature extraction models in e-nose only sample a few data during the process of extracting features. To use more data an...

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Main Authors: Cheng Kong, Shishun Zhao, Xiaohui Weng, Chang Liu, Renchu Guan, Zhiyong Chang
Format: Article
Language:English
Published: IEEE 2019-01-01
Series:IEEE Access
Subjects:
Electronic nose
feature extraction
pig barn
weighted summation
Online Access:https://ieeexplore.ieee.org/document/8765732/
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spelling doaj-2f1919f25e554e63a6ab347b6dd7439b2021-04-05T17:11:08ZengIEEEIEEE Access2169-35362019-01-017967329674210.1109/ACCESS.2019.29295268765732Weighted Summation: Feature Extraction of Farm Pigsty Data for Electronic NoseCheng Kong0https://orcid.org/0000-0002-9743-9225Shishun Zhao1Xiaohui Weng2Chang Liu3Renchu Guan4https://orcid.org/0000-0002-7162-7826Zhiyong Chang5College of Mathematics, Jilin University, Changchun, ChinaCollege of Mathematics, Jilin University, Changchun, ChinaSchool of Mechanical and Aerospace Engineering, Jilin University, Changchun, ChinaModern Educational and Technological Center, Changchun University of Chinese Medicine, Changchun, ChinaCollege of Computer Science and Technology, Jilin University, Changchun, ChinaCollege of Biological and Agricultural Engineering, Jilin University, Changchun, ChinaWhen an electronic nose (e-nose) is used for prediction, extracting more useful information from the original response curve is of great importance. However, the most traditional feature extraction models in e-nose only sample a few data during the process of extracting features. To use more data and acquire more information to improve e-nose's classification accuracy, we present a new feature extraction method called “weighted summation” (WS). In addition, this method was compared with other exiting methods, including maximum value of the steady-state response (MAX), curve fitting (CF), dynamic moments of the phase space (MD2), maximum value of the first-order derivative (Dmax), and Db1 wavelet transformation (WT). Dingfeng pig farm located at Changchun (Jilin Province, China) was used as odor source. Four kinds of odors taken from inside of pig barn in the morning and in the evening, and outside of pig barn in the morning and in the evening were used as the original response of e-nose. The reasons why we choose these four classes are as follows: to start with, the smell of the house has a great influence on the health of pigs; then, outdoor odors affect residents' comfort level; and morning and evening are the most odorous hours. Experimental results demonstrated that for WS, MAX, CF, MD2, Dmax, and WT methods, accuracy in training set was 88.33%, 85%, 83.33%, 83.33%, 46.67% and 51.67%, respectively, and accuracy in testing set was 100%, 100%, 91.67%, 91.67%, 41.67% and 41.67%, respectively, suggesting that novel feature extraction method outperformed other methods. Moreover, a simple monitor system based on WS method was established to monitor the real environment in pig farm.https://ieeexplore.ieee.org/document/8765732/Electronic nosefeature extractionpig barnweighted summation
collection DOAJ
language English
format Article
sources DOAJ
author Cheng Kong
Shishun Zhao
Xiaohui Weng
Chang Liu
Renchu Guan
Zhiyong Chang
spellingShingle Cheng Kong
Shishun Zhao
Xiaohui Weng
Chang Liu
Renchu Guan
Zhiyong Chang
Weighted Summation: Feature Extraction of Farm Pigsty Data for Electronic Nose
IEEE Access
Electronic nose
feature extraction
pig barn
weighted summation
author_facet Cheng Kong
Shishun Zhao
Xiaohui Weng
Chang Liu
Renchu Guan
Zhiyong Chang
author_sort Cheng Kong
title Weighted Summation: Feature Extraction of Farm Pigsty Data for Electronic Nose
title_short Weighted Summation: Feature Extraction of Farm Pigsty Data for Electronic Nose
title_full Weighted Summation: Feature Extraction of Farm Pigsty Data for Electronic Nose
title_fullStr Weighted Summation: Feature Extraction of Farm Pigsty Data for Electronic Nose
title_full_unstemmed Weighted Summation: Feature Extraction of Farm Pigsty Data for Electronic Nose
title_sort weighted summation: feature extraction of farm pigsty data for electronic nose
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2019-01-01
description When an electronic nose (e-nose) is used for prediction, extracting more useful information from the original response curve is of great importance. However, the most traditional feature extraction models in e-nose only sample a few data during the process of extracting features. To use more data and acquire more information to improve e-nose's classification accuracy, we present a new feature extraction method called “weighted summation” (WS). In addition, this method was compared with other exiting methods, including maximum value of the steady-state response (MAX), curve fitting (CF), dynamic moments of the phase space (MD2), maximum value of the first-order derivative (Dmax), and Db1 wavelet transformation (WT). Dingfeng pig farm located at Changchun (Jilin Province, China) was used as odor source. Four kinds of odors taken from inside of pig barn in the morning and in the evening, and outside of pig barn in the morning and in the evening were used as the original response of e-nose. The reasons why we choose these four classes are as follows: to start with, the smell of the house has a great influence on the health of pigs; then, outdoor odors affect residents' comfort level; and morning and evening are the most odorous hours. Experimental results demonstrated that for WS, MAX, CF, MD2, Dmax, and WT methods, accuracy in training set was 88.33%, 85%, 83.33%, 83.33%, 46.67% and 51.67%, respectively, and accuracy in testing set was 100%, 100%, 91.67%, 91.67%, 41.67% and 41.67%, respectively, suggesting that novel feature extraction method outperformed other methods. Moreover, a simple monitor system based on WS method was established to monitor the real environment in pig farm.
topic Electronic nose
feature extraction
pig barn
weighted summation
url https://ieeexplore.ieee.org/document/8765732/
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AT changliu weightedsummationfeatureextractionoffarmpigstydataforelectronicnose
AT renchuguan weightedsummationfeatureextractionoffarmpigstydataforelectronicnose
AT zhiyongchang weightedsummationfeatureextractionoffarmpigstydataforelectronicnose
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