Efficient 3D AlexNet Architecture for Object Recognition Using Syntactic Patterns from Medical Images.
Shilpa RaniDeepika GhaiSandeep KumarMvv Prasad KantipudiAmal H AlharbiMohammad Aman UllahPublished in: Computational intelligence and neuroscience (2022)
In computer vision and medical image processing, object recognition is the primary concern today. Humans require only a few milliseconds for object recognition and visual stimulation. This led to the development of a computer-specific pattern recognition method in this study for identifying objects in medical images such as brain tumors. Initially, an adaptive median filter is used to remove the noise from MRI images. Thereafter, the contrast image enhancement technique is used to improve the quality of the image. To evaluate the wireframe model, the cellular logic array processing (CLAP)-based algorithm is then applied to images. The basic patterns of three-dimensional (3D) images are then identified from the input image by scanning the whole image. The frequency of these patterns is also used for object classification. A deep neural network is then utilized for the classification of brain tumor. In the proposed model, the syntactic pattern recognition technique is used to find the feature vector and 3D AlexNet is used for brain tumor classification. To evaluate the performance of the proposed work, three benchmark brain tumor datasets are used, i.e., Figshare, Brain MRI Kaggle, and Medical MRI datasets and BraTS 2019 dataset. The comparative analyses reveal that the proposed brain tumor classification model achieves significantly better performance than the existing models.
Keyphrases
- deep learning
- convolutional neural network
- contrast enhanced
- healthcare
- working memory
- machine learning
- magnetic resonance imaging
- neural network
- high resolution
- magnetic resonance
- diffusion weighted imaging
- computed tomography
- genome wide
- air pollution
- high throughput
- dna methylation
- mass spectrometry
- resting state
- brain injury
- functional connectivity