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Graph-Based Deep Learning for Medical Diagnosis and Analysis: Past, Present and Future
by
Denman, Simon
, Armin, Mohammad Ali
, Petersson, Lars
, Ahmedt-Aristizabal, David
, Fookes, Clinton
in
anatomical structure analysis
/ Attention
/ Automation
/ Brain
/ brain functional connectivity
/ Deep Learning
/ graph convolutional networks
/ graph representation
/ Graph representations
/ Machine Learning
/ Magnetic resonance imaging
/ Medical diagnosis
/ Neural networks
/ Neural Networks, Computer
/ Review
/ Semantics
/ Signal processing
2021
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Graph-Based Deep Learning for Medical Diagnosis and Analysis: Past, Present and Future
by
Denman, Simon
, Armin, Mohammad Ali
, Petersson, Lars
, Ahmedt-Aristizabal, David
, Fookes, Clinton
in
anatomical structure analysis
/ Attention
/ Automation
/ Brain
/ brain functional connectivity
/ Deep Learning
/ graph convolutional networks
/ graph representation
/ Graph representations
/ Machine Learning
/ Magnetic resonance imaging
/ Medical diagnosis
/ Neural networks
/ Neural Networks, Computer
/ Review
/ Semantics
/ Signal processing
2021
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Do you wish to request the book?
Graph-Based Deep Learning for Medical Diagnosis and Analysis: Past, Present and Future
by
Denman, Simon
, Armin, Mohammad Ali
, Petersson, Lars
, Ahmedt-Aristizabal, David
, Fookes, Clinton
in
anatomical structure analysis
/ Attention
/ Automation
/ Brain
/ brain functional connectivity
/ Deep Learning
/ graph convolutional networks
/ graph representation
/ Graph representations
/ Machine Learning
/ Magnetic resonance imaging
/ Medical diagnosis
/ Neural networks
/ Neural Networks, Computer
/ Review
/ Semantics
/ Signal processing
2021
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Graph-Based Deep Learning for Medical Diagnosis and Analysis: Past, Present and Future
Journal Article
Graph-Based Deep Learning for Medical Diagnosis and Analysis: Past, Present and Future
2021
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Overview
With the advances of data-driven machine learning research, a wide variety of prediction problems have been tackled. It has become critical to explore how machine learning and specifically deep learning methods can be exploited to analyse healthcare data. A major limitation of existing methods has been the focus on grid-like data; however, the structure of physiological recordings are often irregular and unordered, which makes it difficult to conceptualise them as a matrix. As such, graph neural networks have attracted significant attention by exploiting implicit information that resides in a biological system, with interacting nodes connected by edges whose weights can be determined by either temporal associations or anatomical junctions. In this survey, we thoroughly review the different types of graph architectures and their applications in healthcare. We provide an overview of these methods in a systematic manner, organized by their domain of application including functional connectivity, anatomical structure, and electrical-based analysis. We also outline the limitations of existing techniques and discuss potential directions for future research.
Publisher
MDPI AG,MDPI
Subject
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