Nabhan Yousef scite author profile

Medical images are a rich source of invaluable necessary information used by clinicians. Recent technologies have introduced many advancements for exploiting the most of this information and use it to generate better analysis. Deep learning (DL) techniques have been empowered in medical images analysis using computer-assisted imaging contexts and presenting a lot of solutions and improvements while analyzing these images by radiologists and other specialists. In this paper, we present a survey of DL techniques used for variety of tasks along with the different medical image's modalities to provide critical review of the recent developments in this direction. We have organized our paper to provide significant contribution of deep leaning traits and learn its concepts, which is in turn helpful for non-expert in medical society. Then, we present several applications of deep learning (e.g., segmentation, classification, detection, etc.) which are commonly used for clinical purposes for different anatomical site, and we also present the main key terms for DL attributes like basic architecture, data augmentation, transfer learning, and feature selection methods. Medical images as inputs to deep learning architectures will be the mainstream in the coming years, and novel DL techniques are predicted to be the core of medical images analysis. We conclude our paper by addressing some research challenges and the suggested solutions for them found in literature, and also future promises and directions for further developments.

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Study and Analysis of Implementing a Smart Attendance Management System Based on Face Recognition Tecqnique using OpenCV and Machine Learning

Mridha

Yousef

2021

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WITHDRAWN: A comparative study of different machine learning techniques for brain tumor analysis

Yousef

Gupta

Vanipriya³

et al. 2021

Materials Today: Proceedings

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Intelligent inspection of surface defects in metal castings using machine learning

Yousef

Parmar

Sata

2022

Materials Today: Proceedings

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Enhanced Object Detection using Generalized Hough Transform and RANSAC

Kumar*¹,

Yousef²,

Yousef³

2019

IJITEE

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In this paper object detection process has been implemented using the combination of some robust algorithms. The algorithms used are SIFT, GHT and RANSAC. Two models have been proposed which using two of the above mentioned algorithms. In model one features extraction by SIFT has been processed using Generalized Hough Transform (GHT) , where in other model improved RANSAC has been used to eliminate the mismatches in order to achieve better recognition resolution. Overall GHT is found to be superior technique to achieve object detection efficiently.

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Nabhan Yousef

A holistic overview of deep learning approach in medical imaging

Study and Analysis of Implementing a Smart Attendance Management System Based on Face Recognition Tecqnique using OpenCV and Machine Learning

WITHDRAWN: A comparative study of different machine learning techniques for brain tumor analysis

Intelligent inspection of surface defects in metal castings using machine learning

Enhanced Object Detection using Generalized Hough Transform and RANSAC

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