Classification models of nondestructive acoustic response for predicting translucent mangosteens
Mangosteen export generates large revenue; however, translucent mangosteens, which contain undesirable internal condition, result in the shipment rejection and decrease the reliability of the export. This research investigates a novel non-destructive classification approach based on acoustic frequen...
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th-cmuir.6653943832-389942015-06-16T08:01:03Z Classification models of nondestructive acoustic response for predicting translucent mangosteens Swangmuang N. Swangmuang N. Uthaichana K. Uthaichana K. Theera-Umpon N. Theera-Umpon N. Sawada H. Mangosteen export generates large revenue; however, translucent mangosteens, which contain undesirable internal condition, result in the shipment rejection and decrease the reliability of the export. This research investigates a novel non-destructive classification approach based on acoustic frequency response to detect mangosteens containing translucent fleshes. The set of uniform-distributed multi-frequency acoustic signal is generated and passed through each mangosteen under the test. The frequency responses, describing a feature space, for all mangosteens are computed via the discrete Fourier transform. To prevent intensive computation, a linear optimization is adopted to select relevant frequency contents, creating a compact classifying feature vector. To solve the classification problem, two proposed acoustic-based classification techniques are studied, namely linear classifier (LC), and non-linear classifier (NLC) based on an artificial neural network. Then the results from both classifiers are compared against the results from the conventional water-floating (WF) approach. Against the experimental data, it is found that the average flesh classification accuracy of good mangoteens achieved from the LC and the NLC are about 61% and 74% respectively, while the WF yields an accuracy of about 69%. It is evident that the acoustic-based approach possesses the convincing accuracy for solving the problem of export-grade translucent mangosteen classification. In addition, the paper shows that a mangosteen's physical density can possibly provide intuitive information for better classification performance in the future research study. © 2012 IEEE. 2015-06-16T08:01:03Z 2015-06-16T08:01:03Z 2012-10-02 Conference Paper 2-s2.0-84866760875 10.1109/ECTICon.2012.6254134 http://www.scopus.com/inward/record.url?partnerID=HzOxMe3b&scp=84866760875&origin=inward http://cmuir.cmu.ac.th/handle/6653943832/38994 |
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Mangosteen export generates large revenue; however, translucent mangosteens, which contain undesirable internal condition, result in the shipment rejection and decrease the reliability of the export. This research investigates a novel non-destructive classification approach based on acoustic frequency response to detect mangosteens containing translucent fleshes. The set of uniform-distributed multi-frequency acoustic signal is generated and passed through each mangosteen under the test. The frequency responses, describing a feature space, for all mangosteens are computed via the discrete Fourier transform. To prevent intensive computation, a linear optimization is adopted to select relevant frequency contents, creating a compact classifying feature vector. To solve the classification problem, two proposed acoustic-based classification techniques are studied, namely linear classifier (LC), and non-linear classifier (NLC) based on an artificial neural network. Then the results from both classifiers are compared against the results from the conventional water-floating (WF) approach. Against the experimental data, it is found that the average flesh classification accuracy of good mangoteens achieved from the LC and the NLC are about 61% and 74% respectively, while the WF yields an accuracy of about 69%. It is evident that the acoustic-based approach possesses the convincing accuracy for solving the problem of export-grade translucent mangosteen classification. In addition, the paper shows that a mangosteen's physical density can possibly provide intuitive information for better classification performance in the future research study. © 2012 IEEE. |
format |
Conference or Workshop Item |
author |
Swangmuang N. Swangmuang N. Uthaichana K. Uthaichana K. Theera-Umpon N. Theera-Umpon N. Sawada H. |
spellingShingle |
Swangmuang N. Swangmuang N. Uthaichana K. Uthaichana K. Theera-Umpon N. Theera-Umpon N. Sawada H. Classification models of nondestructive acoustic response for predicting translucent mangosteens |
author_facet |
Swangmuang N. Swangmuang N. Uthaichana K. Uthaichana K. Theera-Umpon N. Theera-Umpon N. Sawada H. |
author_sort |
Swangmuang N. |
title |
Classification models of nondestructive acoustic response for predicting translucent mangosteens |
title_short |
Classification models of nondestructive acoustic response for predicting translucent mangosteens |
title_full |
Classification models of nondestructive acoustic response for predicting translucent mangosteens |
title_fullStr |
Classification models of nondestructive acoustic response for predicting translucent mangosteens |
title_full_unstemmed |
Classification models of nondestructive acoustic response for predicting translucent mangosteens |
title_sort |
classification models of nondestructive acoustic response for predicting translucent mangosteens |
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2015 |
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http://www.scopus.com/inward/record.url?partnerID=HzOxMe3b&scp=84866760875&origin=inward http://cmuir.cmu.ac.th/handle/6653943832/38994 |
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