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Title:
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APPLYING DEEP LEARNING METHODS
TO THE AI EXPERT SYSTEM ON ALZHEIMER`S
DISEASE FOR THE ELDERLY |
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Author(s):
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Chun-Yang Chang, You-Hsun Wu, Wei-Pin Hong, Chien-Hsu Chen and Yang-Cheng Lin |
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ISBN:
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978-989-8704-18-4 |
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Editors:
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Mário Macedo |
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Year:
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2020 |
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Edition:
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Single |
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Keywords:
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Alzheimer Disease, Image Recognition, MobileNet V2, NASNetMobile, ShuffleNetV2 |
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Type:
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Short |
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First Page:
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175 |
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Last Page:
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182 |
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Language:
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English |
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Cover:
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Full Contents:
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click to dowload 
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Paper Abstract:
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With the advent of an aging society, the number of people who are being afflicted with Alzheimer's disease is also on a
gradual rise. However, an effective medical treatment to contain the contraction of the disease still does not exist. There is
a widespread lack of understanding about dementia among the general populace, and the amount of available research into
early pathological prediction of Alzheimer's disease is also quite low. This study proposes a testing system to detect cases
of dementia, which is designed to assist doctors in diagnosing the disease. The system can be applied to embedded devices
and mobile devices in the hospital in the future to promote the development of artificial intelligence in the medical field
and improve diagnosis efficiency. On the basis of minuscule size and a small number of parameters, lightweight
convolutional neural networks can be deployed on devices with finite memory and computing without connecting any
cloud platform to avoid the breach of image data and ensure the quality of its security. For this purpose, three common
lightweight convolutional neural networks are used in this study MobileNet V2, NASNetMobile, and ShuffleNet V2. In
cases where the parameters are identical to those corresponding to other conditions, the Alzheimer's disease predictive
identification is applied to use open-source magnetic resonance imaging (MRI) scans obtained from the Kaggle platform.
The results of the study indicate that MobileNet V2 exhibits the highest prediction accuracy (80.78%). Additionally, the
system proposed in this study can be integrated into physicians' workflows during the diagnosis of Alzheimer's disease,
thereby making their medical judgments more accurate. It can, therefore, address the tedious and time-consuming nature
of the current methods of diagnosis of the disease, improve the efficiency of the medical treatment of patients, and improve
the possibility of early detection of the disease. |
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