Brain Tumour Segmentation in MRI Data Using Gray Level Co-Occurrence Matrix

Muhammad Zidni Al Ghifari; Widiana Ferriastuti; Tri Harsono; Riyanto Sigit; Fierly Hayati

doi:10.1109/IEIT64341.2024.10763342

Brain Tumour Segmentation in MRI Data Using Gray Level Co-Occurrence Matrix

Muhammad Zidni Al Ghifari, Widiana Ferriastuti, Tri Harsono, Riyanto Sigit, Fierly Hayati

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

In the medical field, the image segmentation process is very important as the first step to diagnose a disease. Currently, brain tumors are one of the most life-threatening diseases. To detect brain tumors more accurately in less time, many techniques have been proposed using image segmentation. This research will present a brain tumour segmentation method on brain MRI data using GLCM (Grey Level Co-Occurrence Matrix). The input data in this system is the planned MRI data obtained from a hospital and Open Source MRI data in the form of grey level which is calculated using GLCM. Calculation using GLCM which is to find the maximum probability among the grey values of surrounding cells. The result of the GLCM calculation produces texture values (Texture Features). The combination of the intensity value in the MRI data and its texture value as an input parameter in the segmentation process. The method used to segment the tumour is thresholding by identifying contours on the MRI image. Both intensity-based and texture-based images are subjected to the same segmentation method. The segmentation result in this study is the categorization of cell areas affected by tumours and normal cells. To see the performance of the system built in this study using DSC (Dice Similarity Coefficient) and JC (Jaccard Coefficient) presented in the form of a percentage. Tests were conducted with 25 MRI data with two types of tumours namely glioblastoma and meningioma. Evaluation using Dice Similarity and Jaccard methods showed a small difference in accuracy between texture and intensity images. The texture image has an average Dice Similarity of 82.81% and Jaccard of 88.40%. While the intensity image has an average Dice Similarity of 80.35% and Jaccard 87.22%. In conclusion, the GLCMCA method provides slightly higher and more precise segmentation accuracy.

Original language	English
Title of host publication	Proceedings - IEIT 2024 - 2024 International Conference on Electrical and Information Technology
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	195-200
Number of pages	6
ISBN (Electronic)	9798331516888
DOIs	https://doi.org/10.1109/IEIT64341.2024.10763342
Publication status	Published - 2024
Event	2024 International Conference on Electrical and Information Technology, IEIT 2024 - Malang, Indonesia Duration: 12 Sept 2024 → 13 Sept 2024

Publication series

Name	Proceedings - IEIT 2024 - 2024 International Conference on Electrical and Information Technology

Conference

Conference	2024 International Conference on Electrical and Information Technology, IEIT 2024
Country/Territory	Indonesia
City	Malang
Period	12/09/24 → 13/09/24

Keywords

Brain Tumor Segmentation
Gray Level Co-Occurrence Matrix (GLCM)
Magnetic Resonance Image (MRI)

Access to Document

10.1109/IEIT64341.2024.10763342

Cite this

Al Ghifari, M. Z., Ferriastuti, W., Harsono, T., Sigit, R., & Hayati, F. (2024). Brain Tumour Segmentation in MRI Data Using Gray Level Co-Occurrence Matrix. In Proceedings - IEIT 2024 - 2024 International Conference on Electrical and Information Technology (pp. 195-200). (Proceedings - IEIT 2024 - 2024 International Conference on Electrical and Information Technology). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/IEIT64341.2024.10763342

Al Ghifari, Muhammad Zidni ; Ferriastuti, Widiana ; Harsono, Tri et al. / Brain Tumour Segmentation in MRI Data Using Gray Level Co-Occurrence Matrix. Proceedings - IEIT 2024 - 2024 International Conference on Electrical and Information Technology. Institute of Electrical and Electronics Engineers Inc., 2024. pp. 195-200 (Proceedings - IEIT 2024 - 2024 International Conference on Electrical and Information Technology).

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title = "Brain Tumour Segmentation in MRI Data Using Gray Level Co-Occurrence Matrix",

abstract = "In the medical field, the image segmentation process is very important as the first step to diagnose a disease. Currently, brain tumors are one of the most life-threatening diseases. To detect brain tumors more accurately in less time, many techniques have been proposed using image segmentation. This research will present a brain tumour segmentation method on brain MRI data using GLCM (Grey Level Co-Occurrence Matrix). The input data in this system is the planned MRI data obtained from a hospital and Open Source MRI data in the form of grey level which is calculated using GLCM. Calculation using GLCM which is to find the maximum probability among the grey values of surrounding cells. The result of the GLCM calculation produces texture values (Texture Features). The combination of the intensity value in the MRI data and its texture value as an input parameter in the segmentation process. The method used to segment the tumour is thresholding by identifying contours on the MRI image. Both intensity-based and texture-based images are subjected to the same segmentation method. The segmentation result in this study is the categorization of cell areas affected by tumours and normal cells. To see the performance of the system built in this study using DSC (Dice Similarity Coefficient) and JC (Jaccard Coefficient) presented in the form of a percentage. Tests were conducted with 25 MRI data with two types of tumours namely glioblastoma and meningioma. Evaluation using Dice Similarity and Jaccard methods showed a small difference in accuracy between texture and intensity images. The texture image has an average Dice Similarity of 82.81% and Jaccard of 88.40%. While the intensity image has an average Dice Similarity of 80.35% and Jaccard 87.22%. In conclusion, the GLCMCA method provides slightly higher and more precise segmentation accuracy.",

keywords = "Brain Tumor Segmentation, Gray Level Co-Occurrence Matrix (GLCM), Magnetic Resonance Image (MRI)",

author = "{Al Ghifari}, {Muhammad Zidni} and Widiana Ferriastuti and Tri Harsono and Riyanto Sigit and Fierly Hayati",

note = "Publisher Copyright: {\textcopyright} 2024 IEEE.; 2024 International Conference on Electrical and Information Technology, IEIT 2024 ; Conference date: 12-09-2024 Through 13-09-2024",

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Al Ghifari, MZ, Ferriastuti, W, Harsono, T, Sigit, R & Hayati, F 2024, Brain Tumour Segmentation in MRI Data Using Gray Level Co-Occurrence Matrix. in Proceedings - IEIT 2024 - 2024 International Conference on Electrical and Information Technology. Proceedings - IEIT 2024 - 2024 International Conference on Electrical and Information Technology, Institute of Electrical and Electronics Engineers Inc., pp. 195-200, 2024 International Conference on Electrical and Information Technology, IEIT 2024, Malang, Indonesia, 12/09/24. https://doi.org/10.1109/IEIT64341.2024.10763342

Brain Tumour Segmentation in MRI Data Using Gray Level Co-Occurrence Matrix. / Al Ghifari, Muhammad Zidni; Ferriastuti, Widiana; Harsono, Tri et al.
Proceedings - IEIT 2024 - 2024 International Conference on Electrical and Information Technology. Institute of Electrical and Electronics Engineers Inc., 2024. p. 195-200 (Proceedings - IEIT 2024 - 2024 International Conference on Electrical and Information Technology).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Hayati, Fierly

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N2 - In the medical field, the image segmentation process is very important as the first step to diagnose a disease. Currently, brain tumors are one of the most life-threatening diseases. To detect brain tumors more accurately in less time, many techniques have been proposed using image segmentation. This research will present a brain tumour segmentation method on brain MRI data using GLCM (Grey Level Co-Occurrence Matrix). The input data in this system is the planned MRI data obtained from a hospital and Open Source MRI data in the form of grey level which is calculated using GLCM. Calculation using GLCM which is to find the maximum probability among the grey values of surrounding cells. The result of the GLCM calculation produces texture values (Texture Features). The combination of the intensity value in the MRI data and its texture value as an input parameter in the segmentation process. The method used to segment the tumour is thresholding by identifying contours on the MRI image. Both intensity-based and texture-based images are subjected to the same segmentation method. The segmentation result in this study is the categorization of cell areas affected by tumours and normal cells. To see the performance of the system built in this study using DSC (Dice Similarity Coefficient) and JC (Jaccard Coefficient) presented in the form of a percentage. Tests were conducted with 25 MRI data with two types of tumours namely glioblastoma and meningioma. Evaluation using Dice Similarity and Jaccard methods showed a small difference in accuracy between texture and intensity images. The texture image has an average Dice Similarity of 82.81% and Jaccard of 88.40%. While the intensity image has an average Dice Similarity of 80.35% and Jaccard 87.22%. In conclusion, the GLCMCA method provides slightly higher and more precise segmentation accuracy.

AB - In the medical field, the image segmentation process is very important as the first step to diagnose a disease. Currently, brain tumors are one of the most life-threatening diseases. To detect brain tumors more accurately in less time, many techniques have been proposed using image segmentation. This research will present a brain tumour segmentation method on brain MRI data using GLCM (Grey Level Co-Occurrence Matrix). The input data in this system is the planned MRI data obtained from a hospital and Open Source MRI data in the form of grey level which is calculated using GLCM. Calculation using GLCM which is to find the maximum probability among the grey values of surrounding cells. The result of the GLCM calculation produces texture values (Texture Features). The combination of the intensity value in the MRI data and its texture value as an input parameter in the segmentation process. The method used to segment the tumour is thresholding by identifying contours on the MRI image. Both intensity-based and texture-based images are subjected to the same segmentation method. The segmentation result in this study is the categorization of cell areas affected by tumours and normal cells. To see the performance of the system built in this study using DSC (Dice Similarity Coefficient) and JC (Jaccard Coefficient) presented in the form of a percentage. Tests were conducted with 25 MRI data with two types of tumours namely glioblastoma and meningioma. Evaluation using Dice Similarity and Jaccard methods showed a small difference in accuracy between texture and intensity images. The texture image has an average Dice Similarity of 82.81% and Jaccard of 88.40%. While the intensity image has an average Dice Similarity of 80.35% and Jaccard 87.22%. In conclusion, the GLCMCA method provides slightly higher and more precise segmentation accuracy.

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Al Ghifari MZ, Ferriastuti W, Harsono T, Sigit R, Hayati F. Brain Tumour Segmentation in MRI Data Using Gray Level Co-Occurrence Matrix. In Proceedings - IEIT 2024 - 2024 International Conference on Electrical and Information Technology. Institute of Electrical and Electronics Engineers Inc. 2024. p. 195-200. (Proceedings - IEIT 2024 - 2024 International Conference on Electrical and Information Technology). doi: 10.1109/IEIT64341.2024.10763342

Brain Tumour Segmentation in MRI Data Using Gray Level Co-Occurrence Matrix

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