Welcome to the upgraded BRAC University Institutional Repository. We are currently organizing collections after a recent system upgrade. Homepage category counters may temporarily show lower numbers while syncing, but over 27,000 repository items remain safe and accessible. Please use the search bar to find theses, scholarly outputs, and institutional documents.

Multi-classification based Alzheimer's disease detection with comparative analysis from brain MRI scans using deep learning

Citation

Abstract

The neurodegenerative Alzheimer's Disease is the most widely recognized cause of `Dementia' and was allegedly the 7th highest cause of death globally. Nevertheless, there is still no conclusive test for distinguishing Alzheimer's disease. Our proposed model eliminates these challenges in an effective manner. The technique fits and analyzes different classes in a single setting and requires signi ficantly less previ- ous apprehension. Several handcrafted or prede ned machine learning and deep learning models have been implemented in this fi eld of study. Our proposed multi- classi cation model is primarily implemented based on the Open Access Series of Imaging Studies (OASIS) data and suggests an 18-layer architecture. We have im- plemented a unique preprocessing approach of all three anatomical planes of the MRI scans in a single sequential model, which was also evaluated afterward. The research also explores a comparative study among multiple and binary classes in terms of performance and effciency. Prede ned models such as InceptionV3 and VGG19 have also been brought to comparison to measure the model's reliability. Our multiclass setting shows an accuracy of over 80%, which is higher than most of the existing multi-classi fication models in this dataset. Moreover, the in-depth comparative study using binary classi cation shows a signi ficant accuracy of over 92%, which ensures the overall efficacy of the model.

Description

Cataloged from PDF version of thesis.
Includes bibliographical references (pages 41-42).
This thesis is submitted in partial fulfillment of the requirements for the degree of Bachelor of Science in Computer Science and Engineering, 2021.

Publisher Link

Type

Thesis