基于手工和深度特征的脊柱侧凸分类

2022 2nd International Conference on Digital Futures and Transformative Technologies (ICoDT2) Pub Date : 2022-05-24 DOI:10.1109/ICoDT255437.2022.9787459

Joddat Fatima, Mashood Mohsan, Muhammad Umair Qaisar, M. Hamza, Muhammad Zeeshan Tahir, G. Zaman

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引用次数: 0

摘要

脊髓是连接大脑和身体其他器官的中央传输线。椎骨是33块不均匀的骨头堆叠在一起，支撑着整个骨架结构。脊柱侧凸是一种三维脊柱畸形，通常发生在生长年龄和青春期前爆发。我们的研究工作分为两个阶段，第一阶段我们使用Mask-RCNN对脊柱进行分割。分割的列用于特征提取，第二阶段使用AASCE2019数据集对正常、C和S型脊柱侧凸进行基于特征的分类。并对多种图像分类网络进行了对比研究，在此基础上选择了effentnet - b4进行混合特征集的构建。随机森林分类器对手工特征和深度特征的准确率分别达到94.32%和89.66%。结合深度和手工特征制定的混合特征集达到准确率高达94.45%。

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Handcrafted and Deep features based Classification of Scoliosis

The Spinal cord acts as the central transmission line connecting the Brain with all other body organs. Vertebrae are 33 uneven bones stacked over one another that holds the whole skeleton structure. Scoliosis is the three-dimensional spinal deformity which commonly occurs during the growing age and erupts before puberty. It is further classified in two Shapes C and S. Our research work has two stages, in first stage we segment out the vertebral column using Mask-RCNN. The segmented column is used for features extraction and in stage two feature based classification is done for normal, C and S shape of scoliosis using AASCE2019 dataset. A comparative study on multiple image classification networks is also conducted and based on results EfficientNet-B4 is selected for formulation of hybrid feature set. The accuracy achieved using Random forest classifier, for handcrafted and deep features was up to 94.32% and 89.66%. Hybrid feature set formulated with combination of deep and handcrafted features attained accuracy up to 94.45%.

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2022 2nd International Conference on Digital Futures and Transformative Technologies (ICoDT2)

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