Employing Texture Features of Chest X-Ray Images and Machine Learning in COVID-19 Detection and Classification
The novel coronavirus (nCoV-19) was first detected in December 2019. It had spread worldwide and was declared coronavirus disease (COVID-19) pandemic by March 2020. Patients presented with a wide range of symptoms affecting multiple organ systems predominantly the lungs. Severe cases required inten...
| Main Authors: | , , , , , |
|---|---|
| Format: | Article |
| Language: | English |
| Published: |
Brno University of Technology
2021-06-01
|
| Series: | Mendel |
| Subjects: | |
| Online Access: | https://mendel-journal.org/index.php/mendel/article/view/128 |
| id |
doaj-78e1722e57204bf2a013bd00cff9115e |
|---|---|
| record_format |
Article |
| spelling |
doaj-78e1722e57204bf2a013bd00cff9115e2021-07-20T13:20:34ZengBrno University of TechnologyMendel1803-38142571-37012021-06-0127110.13164/mendel.2021.1.009Employing Texture Features of Chest X-Ray Images and Machine Learning in COVID-19 Detection and ClassificationHiam Alquran0Mohammad Alsleti1Roaa Alsharif2Isam Abu Qasmieh3Ali Mohammad Alqudah4Nor Hazlyna Binti Harun5Department of Biomedical Systems and Informatics Engineering, Yarmouk University, Irbid, 21163, JordanThe Institute of Biomedical Technology, King Hussein Medical Center, Royal Jordanian Medical Service, Amman, 11855, JordanCollege of applied medical Sciences, Radiological Science Program, King Saud University, Jeddah, 21435, Saudi ArabiaDepartment of Biomedical Systems and Informatics Engineering, Yarmouk University, Irbid, 21163, JordanDepartment of Biomedical Systems and Informatics Engineering, Yarmouk University, Irbid, 21163, JordanData Science Research Lab, School of Computing, Universiti Utara Malaysia, 06010 Sintok, Kedah, Malaysia The novel coronavirus (nCoV-19) was first detected in December 2019. It had spread worldwide and was declared coronavirus disease (COVID-19) pandemic by March 2020. Patients presented with a wide range of symptoms affecting multiple organ systems predominantly the lungs. Severe cases required intensive care unit (ICU) admissions while there were asymptomatic cases as well. Although early detection of the COVID-19 virus by Real-time reverse transcription-polymerase chain reaction (RT-PCR) is effective, it is not efficient; as there can be false negatives, it is time consuming and expensive. To increase the accuracy of in-vivo detection, radiological image-based methods like a simple chest X-ray (CXR) can be utilized. This reduces the false negatives as compared to solely using the RT-PCR technique. This paper employs various image processing techniques besides extracted texture features from the radiological images and feeds them to different artificial intelligence (AI) scenarios to distinguish between normal, pneumonia, and COVID-19 cases. The best scenario is then adopted to build an automated system that can segment the chest region from the acquired image, enhance the segmented region then extract the texture features, and finally, classify it into one of the three classes. The best overall accuracy achieved is 93.1% by exploiting Ensemble classifier. Utilizing radiological data to conform to a machine learning format reduces the detection time and increase the chances of survival. https://mendel-journal.org/index.php/mendel/article/view/128COVID-19COVID-19 pandemicRespiratory infection detectionPneumoniaK-Nearest NeighborSupport Vector Machine |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Hiam Alquran Mohammad Alsleti Roaa Alsharif Isam Abu Qasmieh Ali Mohammad Alqudah Nor Hazlyna Binti Harun |
| spellingShingle |
Hiam Alquran Mohammad Alsleti Roaa Alsharif Isam Abu Qasmieh Ali Mohammad Alqudah Nor Hazlyna Binti Harun Employing Texture Features of Chest X-Ray Images and Machine Learning in COVID-19 Detection and Classification Mendel COVID-19 COVID-19 pandemic Respiratory infection detection Pneumonia K-Nearest Neighbor Support Vector Machine |
| author_facet |
Hiam Alquran Mohammad Alsleti Roaa Alsharif Isam Abu Qasmieh Ali Mohammad Alqudah Nor Hazlyna Binti Harun |
| author_sort |
Hiam Alquran |
| title |
Employing Texture Features of Chest X-Ray Images and Machine Learning in COVID-19 Detection and Classification |
| title_short |
Employing Texture Features of Chest X-Ray Images and Machine Learning in COVID-19 Detection and Classification |
| title_full |
Employing Texture Features of Chest X-Ray Images and Machine Learning in COVID-19 Detection and Classification |
| title_fullStr |
Employing Texture Features of Chest X-Ray Images and Machine Learning in COVID-19 Detection and Classification |
| title_full_unstemmed |
Employing Texture Features of Chest X-Ray Images and Machine Learning in COVID-19 Detection and Classification |
| title_sort |
employing texture features of chest x-ray images and machine learning in covid-19 detection and classification |
| publisher |
Brno University of Technology |
| series |
Mendel |
| issn |
1803-3814 2571-3701 |
| publishDate |
2021-06-01 |
| description |
The novel coronavirus (nCoV-19) was first detected in December 2019. It had spread worldwide and was declared coronavirus disease (COVID-19) pandemic by March 2020. Patients presented with a wide range of symptoms affecting multiple organ systems predominantly the lungs. Severe cases required intensive care unit (ICU) admissions while there were asymptomatic cases as well. Although early detection of the COVID-19 virus by Real-time reverse transcription-polymerase chain reaction (RT-PCR) is effective, it is not efficient; as there can be false negatives, it is time consuming and expensive. To increase the accuracy of in-vivo detection, radiological image-based methods like a simple chest X-ray (CXR) can be utilized. This reduces the false negatives as compared to solely using the RT-PCR technique. This paper employs various image processing techniques besides extracted texture features from the radiological images and feeds them to different artificial intelligence (AI) scenarios to distinguish between normal, pneumonia, and COVID-19 cases. The best scenario is then adopted to build an automated system that can segment the chest region from the acquired image, enhance the segmented region then extract the texture features, and finally, classify it into one of the three classes. The best overall accuracy achieved is 93.1% by exploiting Ensemble classifier. Utilizing radiological data to conform to a machine learning format reduces the detection time and increase the chances of survival.
|
| topic |
COVID-19 COVID-19 pandemic Respiratory infection detection Pneumonia K-Nearest Neighbor Support Vector Machine |
| url |
https://mendel-journal.org/index.php/mendel/article/view/128 |
| work_keys_str_mv |
AT hiamalquran employingtexturefeaturesofchestxrayimagesandmachinelearningincovid19detectionandclassification AT mohammadalsleti employingtexturefeaturesofchestxrayimagesandmachinelearningincovid19detectionandclassification AT roaaalsharif employingtexturefeaturesofchestxrayimagesandmachinelearningincovid19detectionandclassification AT isamabuqasmieh employingtexturefeaturesofchestxrayimagesandmachinelearningincovid19detectionandclassification AT alimohammadalqudah employingtexturefeaturesofchestxrayimagesandmachinelearningincovid19detectionandclassification AT norhazlynabintiharun employingtexturefeaturesofchestxrayimagesandmachinelearningincovid19detectionandclassification |
| _version_ |
1721293747211206656 |