ALZHEIMER’S DISEASE DETECTION USING DEEP LEARNING
DANDA PUSHPA RAGA LATHA, COMPUTER SCIENCE&ENGINEERING
TIRUMALA ENGINEERING COLLEGE
ANGIREKULA VENKATA PREM SAGAR COMPUTER SCIENCE AND ENGINEERING
TIRUMALA ENGINEERING COLLEGE
GRANDHI SWETHA KIRANMAI, COMPUTER SCIENCE AND ENGINEERING
TIRUMALA ENGINEERING COLLEGE
GOLLA NIKHILA SRIJA, COMPUTER SCIENCE AND ENGINEERING
TIRUMALA ENGINEERING COLLEGE
SIKHAKOLLI ANIL KUMAR, COMPUTER SCIENCE AND ENGINEERING
TIRUMALA ENGINEERING COLLEGE
ABSTRACT
Image processing is a technique for applying various procedures to a picture in order to improve it or extract some relevant information from it. It is a kind of signal processing where the input is an image and the output may either be another picture or features or characteristics related to that image. Image processing is one of the technologies that is currently expanding quickly. It is a primary subject of research in both the engineering and computer science fields. For dementia, Alzheimer's disease (AD) is the most prevalent kind. It often shows itself as a steadily declining memory and cognitive function, which makes it difficult for the affected person to live independently and has a significant negative influence on both the affected personand society. At the moment, AD diagnosis depends on medical history analysis, blood testing, behavior analysis, brain imaging, and cognitive testing. But because these processes are arbitrary and uneven, it is difficult to provide a precise forecast for the early phases of AD challenging. A dynamic dual-graph fusion convolutional network is suggested in this paper to enhance the accuracy of Alzheimer's disease (AD) diagnosis. The key contributions of the paper are as follows: The proposed architecture can dynamically adjust the graph structure for GCN to produce better diagnosis outcomes by learning the optimal underlying latent graph, propose a novel dynamic GCN architecture, which is an end-to-end pipeline for diagnosing AD, incorporate feature graph learning and dynamic graph learning, giving those useful features of subjects more weight while reducing the weights of other noise features. Experiments show that our approach achieves great classification results in AD diagnosis while offering flexibility and stability. This project is implemented for the Alzheimer disease classification using Graph convolutional network architecture like CNN with LSTM layer and fit the model in the training and testing and deploy the model for getting the test image output and then compare the accuracy of the model for getting the most perfect model for medical image classification and get theaccuracy of CNN- LSTM layer with 98%.