Automated system for Brain tumour detection and classification using eXtreme Gradient Boosted decision trees

2017 International Conference on Soft Computing and its Engineering Applications (icSoftComp) Pub Date : 2017-12-01 DOI:10.1109/ICSOFTCOMP.2017.8280091

Tushar Kant Mudgal, Aditya Gupta, Siddhant U. Jain, Kunal Gusain

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引用次数: 9

Abstract

This Brain tumor detection and classification is an intrinsic part of any diagnostic system and has witnessed extensive research and procedural advancement over time. The complexity of brain as an organ features to be identified, the presence of noise, poor contrast and intensity inhomogeneity in the images, efficient feature extraction, and accurate classification necessitates the development of an efficacious automated system. We propose a novel automated approach for detection and classification, using the Modified K-Means Clustering algorithm with Mean Shift Segmentation for pre-processing magnetic resonance images (MRI). Detection is done using Marker-Controlled Watershed Transform, and Gray-Level Co-Occurrence Matrix (GLCM) is used for feature extraction. For classification, we use the new and improved version of Gradient Boosted Machines (GBM) called eXtreme GBMs. Implemented using the XGBoost library, this supervised learning model has shown more accurate results and in lesser times, it is being used widely by data scientists and gives state of the art solutions.

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使用极端梯度增强决策树的脑肿瘤检测和分类自动化系统

这种脑肿瘤检测和分类是任何诊断系统的内在组成部分，随着时间的推移，它见证了广泛的研究和程序的进步。脑作为一个器官特征识别的复杂性，图像中存在噪声，对比度差和强度不均匀性，有效的特征提取和准确的分类需要开发一个有效的自动化系统。我们提出了一种新的自动检测和分类方法，使用改进的K-Means聚类算法和Mean Shift分割来预处理磁共振图像(MRI)。采用标记控制分水岭变换进行检测，灰度共生矩阵(GLCM)进行特征提取。对于分类，我们使用新的和改进版本的梯度增强机(GBM)，称为eXtreme GBM。使用XGBoost库实现，这种监督学习模型显示了更准确的结果，并且在更短的时间内被数据科学家广泛使用，并提供了最先进的解决方案。

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2017 International Conference on Soft Computing and its Engineering Applications (icSoftComp)

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