Zahoor Ahmad scite author profile

Zahoor Ahmad

2Publications

36Citation Statements Received

48Citation Statements Given

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National University of Sciences and Technology

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Impact minimization of requirements change in software project through requirements classification

Ahmad

Hussain

Rehman

et al. 2015

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One of many reasons of software project failure is requirement changes. Different requirement changes come up during different phases of software development. Managing these changes throughout the software life cycle especially at later development phases is a challenging task. Mismanaged requirement changes can also lead to failure of the project. In this paper we present a model in which requirements will be divided in to three different categories; fixed, less likely to change, and most likely to change. All requirements which have no chance of change come under fixed category. Requirements having less chances of change will come under less likely to change category and requirements having great chances of change will come under most likely to change category. Modularization is based on category of the requirements. As a result, requirement changes are properly managed while few resources are used for incorporating the requirement changes and project failure chances are mitigated.

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IoMT-Enabled Computer-Aided Diagnosis of Pulmonary Embolism from Computed Tomography Scans Using Deep Learning

Khan

Shah

Khan

et al. 2023

Sensors

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The Internet of Medical Things (IoMT) has revolutionized Ambient Assisted Living (AAL) by interconnecting smart medical devices. These devices generate a large amount of data without human intervention. Learning-based sophisticated models are required to extract meaningful information from this massive surge of data. In this context, Deep Neural Network (DNN) has been proven to be a powerful tool for disease detection. Pulmonary Embolism (PE) is considered the leading cause of death disease, with a death toll of 180,000 per year in the US alone. It appears due to a blood clot in pulmonary arteries, which blocks the blood supply to the lungs or a part of the lung. An early diagnosis and treatment of PE could reduce the mortality rate. Doctors and radiologists prefer Computed Tomography (CT) scans as a first-hand tool, which contain 200 to 300 images of a single study for diagnosis. Most of the time, it becomes difficult for a doctor and radiologist to maintain concentration going through all the scans and giving the correct diagnosis, resulting in a misdiagnosis or false diagnosis. Given this, there is a need for an automatic Computer-Aided Diagnosis (CAD) system to assist doctors and radiologists in decision-making. To develop such a system, in this paper, we proposed a deep learning framework based on DenseNet201 to classify PE into nine classes in CT scans. We utilized DenseNet201 as a feature extractor and customized fully connected decision-making layers. The model was trained on the Radiological Society of North America (RSNA)-Pulmonary Embolism Detection Challenge (2020) Kaggle dataset and achieved promising results of 88%, 88%, 89%, and 90% in terms of the accuracy, sensitivity, specificity, and Area Under the Curve (AUC), respectively.

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Zahoor Ahmad

Impact minimization of requirements change in software project through requirements classification

IoMT-Enabled Computer-Aided Diagnosis of Pulmonary Embolism from Computed Tomography Scans Using Deep Learning

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