The applications of machine learning techniques in medical data processing based on distributed computing and the Internet of Things

•Providing a comprehensive analysis of the most current innovations in medical data processing.•Proposing a systematic review of the available platforms for medical data processing.•Providing an overview of the most basic ML/DL-based methodologies in medical data processing.•Presenting a summary of...

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Published inComputer methods and programs in biomedicine Vol. 241; p. 107745
Main Authors Aminizadeh, Sarina, Heidari, Arash, Toumaj, Shiva, Darbandi, Mehdi, Navimipour, Nima Jafari, Rezaei, Mahsa, Talebi, Samira, Azad, Poupak, Unal, Mehmet
Format Journal Article
LanguageEnglish
Published Ireland Elsevier B.V 01.11.2023
Subjects
Deep learning
Distributed computing
Healthcare data analysis
Medical data processing
Deep learning
Distributed computing
Medical data processing
Healthcare data analysis
Online AccessGet full text
ISSN0169-2607
1872-7565
1872-7565
DOI10.1016/j.cmpb.2023.107745

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Abstract •Providing a comprehensive analysis of the most current innovations in medical data processing.•Proposing a systematic review of the available platforms for medical data processing.•Providing an overview of the most basic ML/DL-based methodologies in medical data processing.•Presenting a summary of distributed computing methods for health-care data analysis with classifying them based on practical characteristics of the techniques.•Evaluating each method that is associated with numerous aspects such as advantages, challenges, databases, implementations, privacy, and security matters.•Outlining the vital aspects where the preceding strategies may be improved soon. Medical data processing has grown into a prominent topic in the latest decades with the primary goal of maintaining patient data via new information technologies, including the Internet of Things (IoT) and sensor technologies, which generate patient indexes in hospital data networks. Innovations like distributed computing, Machine Learning (ML), blockchain, chatbots, wearables, and pattern recognition can adequately enable the collection and processing of medical data for decision-making in the healthcare era. Particularly, to assist experts in the disease diagnostic process, distributed computing is beneficial by digesting huge volumes of data swiftly and producing personalized smart suggestions. On the other side, the current globe is confronting an outbreak of COVID-19, so an early diagnosis technique is crucial to lowering the fatality rate. ML systems are beneficial in aiding radiologists in examining the incredible amount of medical images. Nevertheless, they demand a huge quantity of training data that must be unified for processing. Hence, developing Deep Learning (DL) confronts multiple issues, such as conventional data collection, quality assurance, knowledge exchange, privacy preservation, administrative laws, and ethical considerations. In this research, we intend to convey an inclusive analysis of the most recent studies in distributed computing platform applications based on five categorized platforms, including cloud computing, edge, fog, IoT, and hybrid platforms. So, we evaluated 27 articles regarding the usage of the proposed framework, deployed methods, and applications, noting the advantages, drawbacks, and the applied dataset and screening the security mechanism and the presence of the Transfer Learning (TL) method. As a result, it was proved that most recent research (about 43%) used the IoT platform as the environment for the proposed architecture, and most of the studies (about 46%) were done in 2021. In addition, the most popular utilized DL algorithm was the Convolutional Neural Network (CNN), with a percentage of 19.4%. Hence, despite how technology changes, delivering appropriate therapy for patients is the primary aim of healthcare-associated departments. Therefore, further studies are recommended to develop more functional architectures based on DL and distributed environments and better evaluate the present healthcare data analysis models.
AbstractList Medical data processing has grown into a prominent topic in the latest decades with the primary goal of maintaining patient data via new information technologies, including the Internet of Things (IoT) and sensor technologies, which generate patient indexes in hospital data networks. Innovations like distributed computing, Machine Learning (ML), blockchain, chatbots, wearables, and pattern recognition can adequately enable the collection and processing of medical data for decision-making in the healthcare era. Particularly, to assist experts in the disease diagnostic process, distributed computing is beneficial by digesting huge volumes of data swiftly and producing personalized smart suggestions. On the other side, the current globe is confronting an outbreak of COVID-19, so an early diagnosis technique is crucial to lowering the fatality rate. ML systems are beneficial in aiding radiologists in examining the incredible amount of medical images. Nevertheless, they demand a huge quantity of training data that must be unified for processing. Hence, developing Deep Learning (DL) confronts multiple issues, such as conventional data collection, quality assurance, knowledge exchange, privacy preservation, administrative laws, and ethical considerations. In this research, we intend to convey an inclusive analysis of the most recent studies in distributed computing platform applications based on five categorized platforms, including cloud computing, edge, fog, IoT, and hybrid platforms. So, we evaluated 27 articles regarding the usage of the proposed framework, deployed methods, and applications, noting the advantages, drawbacks, and the applied dataset and screening the security mechanism and the presence of the Transfer Learning (TL) method. As a result, it was proved that most recent research (about 43%) used the IoT platform as the environment for the proposed architecture, and most of the studies (about 46%) were done in 2021. In addition, the most popular utilized DL algorithm was the Convolutional Neural Network (CNN), with a percentage of 19.4%. Hence, despite how technology changes, delivering appropriate therapy for patients is the primary aim of healthcare-associated departments. Therefore, further studies are recommended to develop more functional architectures based on DL and distributed environments and better evaluate the present healthcare data analysis models.Medical data processing has grown into a prominent topic in the latest decades with the primary goal of maintaining patient data via new information technologies, including the Internet of Things (IoT) and sensor technologies, which generate patient indexes in hospital data networks. Innovations like distributed computing, Machine Learning (ML), blockchain, chatbots, wearables, and pattern recognition can adequately enable the collection and processing of medical data for decision-making in the healthcare era. Particularly, to assist experts in the disease diagnostic process, distributed computing is beneficial by digesting huge volumes of data swiftly and producing personalized smart suggestions. On the other side, the current globe is confronting an outbreak of COVID-19, so an early diagnosis technique is crucial to lowering the fatality rate. ML systems are beneficial in aiding radiologists in examining the incredible amount of medical images. Nevertheless, they demand a huge quantity of training data that must be unified for processing. Hence, developing Deep Learning (DL) confronts multiple issues, such as conventional data collection, quality assurance, knowledge exchange, privacy preservation, administrative laws, and ethical considerations. In this research, we intend to convey an inclusive analysis of the most recent studies in distributed computing platform applications based on five categorized platforms, including cloud computing, edge, fog, IoT, and hybrid platforms. So, we evaluated 27 articles regarding the usage of the proposed framework, deployed methods, and applications, noting the advantages, drawbacks, and the applied dataset and screening the security mechanism and the presence of the Transfer Learning (TL) method. As a result, it was proved that most recent research (about 43%) used the IoT platform as the environment for the proposed architecture, and most of the studies (about 46%) were done in 2021. In addition, the most popular utilized DL algorithm was the Convolutional Neural Network (CNN), with a percentage of 19.4%. Hence, despite how technology changes, delivering appropriate therapy for patients is the primary aim of healthcare-associated departments. Therefore, further studies are recommended to develop more functional architectures based on DL and distributed environments and better evaluate the present healthcare data analysis models.
Medical data processing has grown into a prominent topic in the latest decades with the primary goal of maintaining patient data via new information technologies, including the Internet of Things (IoT) and sensor technologies, which generate patient indexes in hospital data networks. Innovations like distributed computing, Machine Learning (ML), blockchain, chatbots, wearables, and pattern recognition can adequately enable the collection and processing of medical data for decision-making in the healthcare era. Particularly, to assist experts in the disease diagnostic process, distributed computing is beneficial by digesting huge volumes of data swiftly and producing personalized smart suggestions. On the other side, the current globe is confronting an outbreak of COVID-19, so an early diagnosis technique is crucial to lowering the fatality rate. ML systems are beneficial in aiding radiologists in examining the incredible amount of medical images. Nevertheless, they demand a huge quantity of training data that must be unified for processing. Hence, developing Deep Learning (DL) confronts multiple issues, such as conventional data collection, quality assurance, knowledge exchange, privacy preservation, administrative laws, and ethical considerations. In this research, we intend to convey an inclusive analysis of the most recent studies in distributed computing platform applications based on five categorized platforms, including cloud computing, edge, fog, IoT, and hybrid platforms. So, we evaluated 27 articles regarding the usage of the proposed framework, deployed methods, and applications, noting the advantages, drawbacks, and the applied dataset and screening the security mechanism and the presence of the Transfer Learning (TL) method. As a result, it was proved that most recent research (about 43%) used the IoT platform as the environment for the proposed architecture, and most of the studies (about 46%) were done in 2021. In addition, the most popular utilized DL algorithm was the Convolutional Neural Network (CNN), with a percentage of 19.4%. Hence, despite how technology changes, delivering appropriate therapy for patients is the primary aim of healthcare-associated departments. Therefore, further studies are recommended to develop more functional architectures based on DL and distributed environments and better evaluate the present healthcare data analysis models.
•Providing a comprehensive analysis of the most current innovations in medical data processing.•Proposing a systematic review of the available platforms for medical data processing.•Providing an overview of the most basic ML/DL-based methodologies in medical data processing.•Presenting a summary of distributed computing methods for health-care data analysis with classifying them based on practical characteristics of the techniques.•Evaluating each method that is associated with numerous aspects such as advantages, challenges, databases, implementations, privacy, and security matters.•Outlining the vital aspects where the preceding strategies may be improved soon. Medical data processing has grown into a prominent topic in the latest decades with the primary goal of maintaining patient data via new information technologies, including the Internet of Things (IoT) and sensor technologies, which generate patient indexes in hospital data networks. Innovations like distributed computing, Machine Learning (ML), blockchain, chatbots, wearables, and pattern recognition can adequately enable the collection and processing of medical data for decision-making in the healthcare era. Particularly, to assist experts in the disease diagnostic process, distributed computing is beneficial by digesting huge volumes of data swiftly and producing personalized smart suggestions. On the other side, the current globe is confronting an outbreak of COVID-19, so an early diagnosis technique is crucial to lowering the fatality rate. ML systems are beneficial in aiding radiologists in examining the incredible amount of medical images. Nevertheless, they demand a huge quantity of training data that must be unified for processing. Hence, developing Deep Learning (DL) confronts multiple issues, such as conventional data collection, quality assurance, knowledge exchange, privacy preservation, administrative laws, and ethical considerations. In this research, we intend to convey an inclusive analysis of the most recent studies in distributed computing platform applications based on five categorized platforms, including cloud computing, edge, fog, IoT, and hybrid platforms. So, we evaluated 27 articles regarding the usage of the proposed framework, deployed methods, and applications, noting the advantages, drawbacks, and the applied dataset and screening the security mechanism and the presence of the Transfer Learning (TL) method. As a result, it was proved that most recent research (about 43%) used the IoT platform as the environment for the proposed architecture, and most of the studies (about 46%) were done in 2021. In addition, the most popular utilized DL algorithm was the Convolutional Neural Network (CNN), with a percentage of 19.4%. Hence, despite how technology changes, delivering appropriate therapy for patients is the primary aim of healthcare-associated departments. Therefore, further studies are recommended to develop more functional architectures based on DL and distributed environments and better evaluate the present healthcare data analysis models.
ArticleNumber 107745
Author Darbandi, Mehdi
Navimipour, Nima Jafari
Rezaei, Mahsa
Talebi, Samira
Heidari, Arash
Toumaj, Shiva
Unal, Mehmet
Aminizadeh, Sarina
Azad, Poupak
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  email: Arash_Heidari@ieee.org
  organization: Department of Computer Engineering, Tabriz Branch, Islamic Azad University, Tabriz, Iran
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  givenname: Shiva
  surname: Toumaj
  fullname: Toumaj, Shiva
  organization: Urmia University of Medical Sciences, Urmia, Iran
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  givenname: Mehdi
  surname: Darbandi
  fullname: Darbandi, Mehdi
  organization: Department of Electrical and Electronic Engineering, Eastern Mediterranean University, Gazimagusa 99628, Turkiye
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  givenname: Nima Jafari
  orcidid: 0000-0002-5514-5536
  surname: Navimipour
  fullname: Navimipour, Nima Jafari
  email: navimipour@ieee.org, jnnima@yuntech.edu.tw, nima.navimipour@khas.edu.tr
  organization: Department of Computer Engineering, Kadir Has University, Istanbul, Turkiye
– sequence: 6
  givenname: Mahsa
  surname: Rezaei
  fullname: Rezaei, Mahsa
  organization: Tabriz University of Medical Sciences, Faculty of Surgery, Tabriz, Iran
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  givenname: Samira
  surname: Talebi
  fullname: Talebi, Samira
  organization: Department of Computer Science, University of Texas at San Antonio, TX, USA
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  organization: Department of Computer Science, University of Manitoba, Winnipeg, Canada
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  surname: Unal
  fullname: Unal, Mehmet
  organization: Department of Computer Engineering, Nisantasi University, Istanbul, Turkiye
BackLink https://www.ncbi.nlm.nih.gov/pubmed/37579550$$D View this record in MEDLINE/PubMed
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Keywords Deep learning
Distributed computing
Medical data processing
Healthcare data analysis
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Snippet •Providing a comprehensive analysis of the most current innovations in medical data processing.•Proposing a systematic review of the available platforms for...
Medical data processing has grown into a prominent topic in the latest decades with the primary goal of maintaining patient data via new information...
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SubjectTerms Deep learning
Distributed computing
Healthcare data analysis
Medical data processing
Title The applications of machine learning techniques in medical data processing based on distributed computing and the Internet of Things
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