Brain medical image classification is an essential procedure in Computer-Aided Diagnosis(CAD)systems.Conventional methods depend specifically on the local or global features.Several fusion methods have also been devel...Brain medical image classification is an essential procedure in Computer-Aided Diagnosis(CAD)systems.Conventional methods depend specifically on the local or global features.Several fusion methods have also been developed,most of which are problem-distinct and have shown to be highly favorable in medical images.However,intensity-specific images are not extracted.The recent deep learning methods ensure an efficient means to design an end-to-end model that produces final classification accuracy with brain medical images,compromising normalization.To solve these classification problems,in this paper,Histogram and Time-frequency Differential Deep(HTF-DD)method for medical image classification using Brain Magnetic Resonance Image(MRI)is presented.The construction of the proposed method involves the following steps.First,a deep Convolutional Neural Network(CNN)is trained as a pooled feature mapping in a supervised manner and the result that it obtains are standardized intensified pre-processed features for extraction.Second,a set of time-frequency features are extracted based on time signal and frequency signal of medical images to obtain time-frequency maps.Finally,an efficient model that is based on Differential Deep Learning is designed for obtaining different classes.The proposed model is evaluated using National Biomedical Imaging Archive(NBIA)images and validation of computational time,computational overhead and classification accuracy for varied Brain MRI has been done.展开更多
文摘Brain medical image classification is an essential procedure in Computer-Aided Diagnosis(CAD)systems.Conventional methods depend specifically on the local or global features.Several fusion methods have also been developed,most of which are problem-distinct and have shown to be highly favorable in medical images.However,intensity-specific images are not extracted.The recent deep learning methods ensure an efficient means to design an end-to-end model that produces final classification accuracy with brain medical images,compromising normalization.To solve these classification problems,in this paper,Histogram and Time-frequency Differential Deep(HTF-DD)method for medical image classification using Brain Magnetic Resonance Image(MRI)is presented.The construction of the proposed method involves the following steps.First,a deep Convolutional Neural Network(CNN)is trained as a pooled feature mapping in a supervised manner and the result that it obtains are standardized intensified pre-processed features for extraction.Second,a set of time-frequency features are extracted based on time signal and frequency signal of medical images to obtain time-frequency maps.Finally,an efficient model that is based on Differential Deep Learning is designed for obtaining different classes.The proposed model is evaluated using National Biomedical Imaging Archive(NBIA)images and validation of computational time,computational overhead and classification accuracy for varied Brain MRI has been done.
