Fault-tolerant gas sensor array architecture for artificial olfactory systems

During the past two decades, artificial olfactory system has received considerable attention, mainly because of the findings in wide range of applications arising from research in various areas of applied sciences, Artificial olfactory system has been employed in a broad range of industries, includi...

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Main Author: Lotfivandvahed, Nasser
Format: Thesis
Language:English
Published: 2013
Subjects:
Online Access:http://psasir.upm.edu.my/id/eprint/91223/1/ITMA%202013%2010%20IR.pdf
http://psasir.upm.edu.my/id/eprint/91223/
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Institution: Universiti Putra Malaysia
Language: English
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spelling my.upm.eprints.912232021-11-03T04:20:06Z http://psasir.upm.edu.my/id/eprint/91223/ Fault-tolerant gas sensor array architecture for artificial olfactory systems Lotfivandvahed, Nasser During the past two decades, artificial olfactory system has received considerable attention, mainly because of the findings in wide range of applications arising from research in various areas of applied sciences, Artificial olfactory system has been employed in a broad range of industries, including the food, agricultural, biomedical, pharmaceutical, and diverse scientific fields, Most of the efforts to develop artificial olfaction have been in sensor fabrication, sensor structure, and signal processing techniques. I Iowever, major problem in the reported investigations is that the classic structure of the artificial olfactory system is not suitable for critical applications such as medical diagnosis and environment air quality monitoring where reliability and precision arc important. In this thesis, development of the artificial olfactory system based on the fault tolerant architecture was investigated. The proposed architecture can resistant or tolerant failures in the sensor array of artificial olfactory system, that is, fault tolerant. The system is able to continue to function in spite of failures in the sensors of array. The result is a system that can suffer from failure and damage but this harm is not effect on its performance and system is capable to recover faults without direct human intervention. In the proposed architecture, by applying a novel technique which is called 'virtual sensor' the occurred faults are masked and generation of erroneous results is prevented. In this thesis, the ability of the developed architecture based on the virtual sensor to discriminate complex odors and also, the performance of system in faulty situation was studied. For this purpose, from different evaluation experiments various datasets with large number of data from 26,400 to 108,000 were generated. The results demonstrated that the performance of the system based on the proposed architecture in healthy mode, is similar to the classic structure of artificial olfaction. However, in faulty mode, the classifier based on the proposed architecture in comparison with the generic architecture presents 70.77%, 64.47%, 64.45% enhancement in precision, sensitivity, and accuracy rates, respectively. Thus, the proposed architecture can be seen as a considerable improvement in artificial olfactory system. 2013-11 Thesis NonPeerReviewed text en http://psasir.upm.edu.my/id/eprint/91223/1/ITMA%202013%2010%20IR.pdf Lotfivandvahed, Nasser (2013) Fault-tolerant gas sensor array architecture for artificial olfactory systems. Doctoral thesis, Universiti Putra Malaysia. Olfactory sensors - Design - Research Smell
institution Universiti Putra Malaysia
building UPM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Putra Malaysia
content_source UPM Institutional Repository
url_provider http://psasir.upm.edu.my/
language English
topic Olfactory sensors - Design - Research
Smell
spellingShingle Olfactory sensors - Design - Research
Smell
Lotfivandvahed, Nasser
Fault-tolerant gas sensor array architecture for artificial olfactory systems
description During the past two decades, artificial olfactory system has received considerable attention, mainly because of the findings in wide range of applications arising from research in various areas of applied sciences, Artificial olfactory system has been employed in a broad range of industries, including the food, agricultural, biomedical, pharmaceutical, and diverse scientific fields, Most of the efforts to develop artificial olfaction have been in sensor fabrication, sensor structure, and signal processing techniques. I Iowever, major problem in the reported investigations is that the classic structure of the artificial olfactory system is not suitable for critical applications such as medical diagnosis and environment air quality monitoring where reliability and precision arc important. In this thesis, development of the artificial olfactory system based on the fault tolerant architecture was investigated. The proposed architecture can resistant or tolerant failures in the sensor array of artificial olfactory system, that is, fault tolerant. The system is able to continue to function in spite of failures in the sensors of array. The result is a system that can suffer from failure and damage but this harm is not effect on its performance and system is capable to recover faults without direct human intervention. In the proposed architecture, by applying a novel technique which is called 'virtual sensor' the occurred faults are masked and generation of erroneous results is prevented. In this thesis, the ability of the developed architecture based on the virtual sensor to discriminate complex odors and also, the performance of system in faulty situation was studied. For this purpose, from different evaluation experiments various datasets with large number of data from 26,400 to 108,000 were generated. The results demonstrated that the performance of the system based on the proposed architecture in healthy mode, is similar to the classic structure of artificial olfaction. However, in faulty mode, the classifier based on the proposed architecture in comparison with the generic architecture presents 70.77%, 64.47%, 64.45% enhancement in precision, sensitivity, and accuracy rates, respectively. Thus, the proposed architecture can be seen as a considerable improvement in artificial olfactory system.
format Thesis
author Lotfivandvahed, Nasser
author_facet Lotfivandvahed, Nasser
author_sort Lotfivandvahed, Nasser
title Fault-tolerant gas sensor array architecture for artificial olfactory systems
title_short Fault-tolerant gas sensor array architecture for artificial olfactory systems
title_full Fault-tolerant gas sensor array architecture for artificial olfactory systems
title_fullStr Fault-tolerant gas sensor array architecture for artificial olfactory systems
title_full_unstemmed Fault-tolerant gas sensor array architecture for artificial olfactory systems
title_sort fault-tolerant gas sensor array architecture for artificial olfactory systems
publishDate 2013
url http://psasir.upm.edu.my/id/eprint/91223/1/ITMA%202013%2010%20IR.pdf
http://psasir.upm.edu.my/id/eprint/91223/
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