https://bakeryrahmat.com/ https://reliabel.fpsi.unjani.ac.id/ https://jurnal.polkesban.ac.id/ https://ejournal.nusamandiri.ac.id/gacor/ Publication - Lungs nodule detection framework from computed tomography images using support vector machine

Lungs nodule detection framework from computed tomography images using support vector machine

Sajid Ali Khan; Muhammad Awais; Tallha Akram; Amjad Rehman; Kashif Javed
Abstract:
The emergence of cloud infrastructure has the potential to provide significant benefits in a variety of areas in the medical imaging field. The driving force behind the extensive use of cloud infrastructure for medical image processing is the exponential increase in the size of computed tomography (CT) and magnetic resonance imaging (MRI) data. The size of a single CT/MRI image has increased manifold since the inception of these imagery techniques. This demand for the introduction of effective and efficient frameworks for extracting relevant and most suitable information (features) from these sizeable images. As early detection of lungs cancer can significantly increase the chances of survival of a lung scanner patient, an effective and efficient nodule detection system can play a vital role. In this article, we have proposed a novel classification framework for lungs nodule classification with less false positive rates (FPRs), high accuracy, sensitivity rate, less computationally expensive and uses a small set of features while preserving edge and texture information. The proposed framework comprises multiple phases that include image contrast enhancement, segmentation, feature extraction, followed by an employment of these features for training and testing of a selected classifier. Image preprocessing and feature selection being the primary steps—playing their vital role in achieving improved classification accuracy. We have empirically tested the efficacy of our technique by utilizing the well‐known Lungs Image Consortium Database dataset. The results prove that the technique is highly effective for reducing FPRs with an impressive sensitivity rate of 97.45%.
research from:
Year:
2019
Type of Publication:
Article
Journal:
Microscopy Research and Technique
Volume:
82
Number:
8
Pages:
1256-1266
DOI:
10.1002/jemt.23275

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