Alam Noor scite author profile

Brain cancer is one of the most dominant causes of cancer death; the best way to diagnose and treat brain tumors is to screen early. Magnetic Resonance Imaging (MRI)is commonly used for brain tumor diagnosis; however, it is challenging problem to achieve higher accuracy and performance , which is a vital problem in most of the previous presented automated medical diagnosis. In this paper, we propose a Hybrid Two-Track U-Net(HTTU-Net) architecture for brain tumor segmentation. This architecture leverages the use of Leaky Relu activation and batch normalization. It includes two tracks; each one has a different number of layers and utilizes a different kernel size. Then, we merge these two tracks to generate the final segmentation. We use the focal loss, and generalized Dice (GDL), loss functions to address the problem of class imbalance. The proposed segmentation method was evaluated on the BraTS'2018 datasets and obtained a mean Dice similarity coefficient of 0.865 for the whole tumor region, 0.808 for the core region and 0.745 for the enhancement region and a median Dice similarity coefficient of 0.883, 0.895, and 0.815 for the whole tumor, core and enhancing region, respectively. The proposed HTTU-Net architecture is sufficient for the segmentation of brain tumors and achieves highly accurate results. Other quantitative and qualitative evaluation are discussed along the paper it confirms that our results are very comparable expert human-level performance, and could help experts to decrease the time of diagnostic. INDEX TERMS Brain Tumor Segmentation, deep neural networks, U-net, fully convolutional network, BraTS'2018 challenge.

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A Novel Hybrid Machine Learning Classification for the Detection of Bruxism Patients Using Physiological Signals

Heyat

Akhtar

Khan

et al. 2020

Applied Sciences

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Bruxism is a sleep disorder in which the patient clinches and gnashes their teeth. Bruxism detection using traditional methods is time-consuming, cumbersome, and expensive. Therefore, an automatic tool to detect this disorder will alleviate the doctor workload and give valuable help to patients. In this paper, we targeted this goal and designed an automatic method to detect bruxism from the physiological signals using a novel hybrid classifier. We began with data collection. Then, we performed the analysis of the physiological signals and the estimation of the power spectral density. After that, we designed the novel hybrid classifier to enable the detection of bruxism based on these data. The classification of the subjects into “healthy” or “bruxism” from the electroencephalogram channel (C4-A1) obtained a maximum specificity of 92% and an accuracy of 94%. Besides, the classification of the sleep stages such as the wake (w) stage and rapid eye movement (REM) stage from the electrocardiogram channel (ECG1-ECG2) obtained a maximum specificity of 86% and an accuracy of 95%. The combined bruxism classification and the sleep stages classification from the electroencephalogram channel (C4-P4) obtained a maximum specificity of 90% and an accuracy of 97%. The results show that more accurate bruxism detection is achieved by exploiting the electroencephalogram signal (C4-P4). The present work can be applied for home monitoring systems for bruxism detection.

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Automated sheep facial expression classification using deep transfer learning

Noor

Zhao

Koubâa

et al. 2020

Computers and Electronics in Agriculture

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Alam Noor

HTTU-Net: Hybrid Two Track U-Net for Automatic Brain Tumor Segmentation

A Novel Hybrid Machine Learning Classification for the Detection of Bruxism Patients Using Physiological Signals

Automated sheep facial expression classification using deep transfer learning

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