Automatic liver tumor segmentation from CT images using random forest algorithm
Downloads
Published
DOI:
https://doi.org/10.58414/SCIENTIFICTEMPER.2023.14.3.19Keywords:
Random forest, Convolutional neural network, Artificial neural network, Liver tumor, Segmentation, Gabor filter.Dimensions Badge
Issue
Section
License
Copyright (c) 2023 The Scientific Temper
This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.
Automatic liver segmentation is challenging, and the tumor segmenting process adds more complexity. Based on the grey levels and shape, separating the liver and tumor from abdominal CT images is critical. In our paper suggests a more effective approach by using Gabor features (GF) to segment liver tumors from CT images and three alternative neural network algorithms to address these problems: RF, CNN and ANN. This thesis uses the same collection of classifiers and GF to first segment a variety of Gabor liver images. The organ (liver) is then extracted from an abdominal CT image using liver segmentation, which is done by three classifiers: ANN, CNN, RF trained on Gabor filter and the tumor segmentation is done by the human visual system (HVS). For pixel-wise segmentation, reliable and accurate ML techniques were used. For the liver segmentation, the classification accuracy was 99.55, 97.88 and 98.13% for RF, CNN and ANN, respectively. From the extracted image of liver, the classification accuracy for tumor was 99.52, 98.07 and 98.45% for RF, CNN and ANN, respectively.Abstract
How to Cite
Downloads
Similar Articles
- Naveen Kumar, Vikram Delu, Tarsem Nain, Anil Kumar, Pooja, Arbind Acharya, Exploring the therapeutic implications of nanoparticles for liquid tumors: A comprehensive review with special emphasis on green synthesis techniques in the context of Dalton’s lymphoma , The Scientific Temper: Vol. 14 No. 03 (2023): The Scientific Temper
- Vaishali Yeole, Rushikesh Yeole, Pradheep Manisekaran, Analysis and prediction of stomach cancer using machine learning , The Scientific Temper: Vol. 16 No. Spl-1 (2025): The Scientific Temper
- Sindhu S, L. Arockiam, DRMF: Optimizing machine learning accuracy in IoT crop recommendation with domain rules and MissForest imputation , The Scientific Temper: Vol. 15 No. 03 (2024): The Scientific Temper
- T. Ramyaveni, V. Maniraj, Hyperparameter tuning of diabetes prediction using machine learning algorithm with pelican optimization algorithm , The Scientific Temper: Vol. 15 No. 03 (2024): The Scientific Temper
- Swetha Rajkumar, Jayaprasanth Devakumar, LSTM based data driven fault detection and isolation in small modular reactors , The Scientific Temper: Vol. 14 No. 01 (2023): The Scientific Temper
- P Janavarthini, I Antonitte Vinoline, Sustainable fuzzy inventory for concurrent fabrication and material depletion modeling with random substandard items , The Scientific Temper: Vol. 16 No. 04 (2025): The Scientific Temper
- Teklil Abadeye, Teshome Yitbarek, Isreal Zewide, Kibinesh Adimasu, Assessing soil fertility influenced by land use in Moche, Gurage Zone, Ethiopia , The Scientific Temper: Vol. 14 No. 01 (2023): The Scientific Temper
- P. Vinnarasi, K. Menaka, Advanced hybrid feature selection techniques for analyzing the relationship between 25-OHD and TSH , The Scientific Temper: Vol. 16 No. 02 (2025): The Scientific Temper
- S. Ramkumar, K. Aanandha Saravanan, Martin Joel Rathnam, M. Revathy, Integration of AI and agent-based modeling for simulating human-ecological systems , The Scientific Temper: Vol. 16 No. 03 (2025): The Scientific Temper
- Komal Raichura, Asha L. Bavarava, Redefining Classroom Dynamics: AI Tools and the Future of English Language Pedagogy , The Scientific Temper: Vol. 16 No. 11 (2025): The Scientific Temper
<< < 8 9 10 11 12 13 14 15 16 17 > >>
You may also start an advanced similarity search for this article.
