Semantic Web for Effective Healthcare Systems

Semantic Web for Effective Healthcare Systems

Herausgegeben:Jain, Vishal; Chatterjee, Jyotir Moy; Bansal, Ankita; Jain, Abha

• Gebundenes Buch

Produktbeschreibung

Ziel dieses Buchs ist eine Analyse, wie das Semantic Web nach aktuellem Stand eingesetzt wird, um das Problem der Integration und Interoperabilität von Gesundheitsdaten zu lösen, wobei es fortschrittliche Möglichkeiten zur Datenverknüpfung bietet, um die Suche nach und das Abrufen von medizinischen Daten zu verbessern. In einigen Kapiteln werden die Instrumente und Ansätze zur semantischen Analyse von Gesundheitsdaten und zur Wissenserschließung analysiert. Außerdem wird die Rolle der semantischen Technologien bei der Extraktion und Umwandlung von Gesundheitsdaten vor der Speicherung in Datenpools betrachtet. Auch unterschiedliche Ansätze für die Integration heterogener Gesundheitsdaten werden erörtert. Insgesamt hilft das Buch den Leserinnen und Lesern, die wichtigsten Konzepte von Semantic-Web-Anwendungen im Bereich der Biomedizintechnik und des Gesundheitswesens zu verstehen.

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Produktdetails

• Verlag: Wiley & Sons / Wiley-Scrivener
• Artikelnr. des Verlages: 1W119762290
• 1. Auflage
• Seitenzahl: 352
• Erscheinungstermin: 9. Dezember 2021
• Englisch
• Abmessung: 234mm x 160mm x 25mm
• Gewicht: 632g
• ISBN-13: 9781119762294
• ISBN-10: 1119762294
• Artikelnr.: 61111661

Autorenporträt

Vishal Jain is an associate professor in the Department of Computer Science and Engineering, School of Engineering and Technology, Sharda University, Greater Noida, U. P. India. He obtained Ph.D (CSE), M.Tech (CSE), MBA (HR), MCA, MCP and CCNA. He has authored more than 80 research papers in reputed conferences and journals, including Web of Science and Scopus. He has authored and edited more than 10 books with various international publishers. Jyotir Moy Chatterjee is an assistant professor in the Department of Information Technology at Lord Buddha Education Foundation (Asia Pacific University of Technology & Innovation), Kathmandu, Nepal. Ankita Bansal is an assistant professor in the Division of Information Technology at Netaji Subhas University of Technology. She received her master's and doctoral degree in computer science from Delhi Technological University (DTU). Abha Jain is an assistant professor in the Department of Computer Science Engineering, Shaheed Rajguru College of Applied Sciences for Women, Delhi University, India. She received her master's and doctorate degree in software engineering from Delhi Technological University.

Inhaltsangabe

Preface xv

Acknowledgment xix

1 An Ontology-Based Contextual Data Modeling for Process Improvement in Healthcare 1
A. M. Abirami and A. Askarunisa

1.1 Introduction 1

1.1.1 Ontology-Based Information Extraction 3

1.1.2 Ontology-Based Knowledge Representation 4

1.2 Related Work 5

1.3 Motivation 8

1.4 Feature Extraction 9

1.4.1 Vector Space Model 10

1.4.2 Latent Semantic Indexing (LSI) 11

1.4.3 Clustering Techniques 12

1.4.4 Topic Modeling 12

1.5 Ontology Development 17

1.5.1 Ontology-Based Semantic Indexing (OnSI) Model 17

1.5.2 Ontology Development 18

1.5.3 OnSI Model Evaluation 19

1.5.4 Metrics Analysis 23

1.6 Dataset Description 24

1.7 Results and Discussions 25

1.7.1 Discussion 1 29

1.7.2 Discussion 2 29

1.7.3 Discussion 3 30

1.8 Applications 31

1.9 Conclusion 32

1.10 Future Work 33

References 33

2 Semantic Web for Effective Healthcare Systems: Impact and Challenges 39
Hemendra Shankar Sharma and Ashish Sharma

2.1 Introduction 40

2.2 Overview of the Website in Healthcare 45

2.2.1 What is Website? 45

2.2.2 Types of Website 45

2.2.2.1 Static Website 45

2.2.2.2 Dynamic Website 46

2.2.3 What is Semantic Web? 46

2.2.4 Role of Semantic Web 47

2.2.4.1 Pros and Cons of Semantic Web 49

2.2.4.2 Impact on Patient 51

2.2.4.3 Impact on Practitioner 52

2.2.4.4 Impact on Researchers 52

2.3 Data and Database 53

2.3.1 What is Data? 54

2.3.2 What is Database? 54

2.3.3 Source of Data in the Healthcare System 54

2.3.3.1 Electronic Health Record (EHR) 55

2.3.3.2 Biomedical Image Analysis 56

2.3.3.3 Sensor Data Analysis 57

2.3.3.4 Genomic Data Analysis 57

2.3.3.5 Clinical Text Mining 58

2.3.3.6 Social Media 59

2.3.4 Why Are Databases Important? 60

2.3.5 Challenges With the Database in the Healthcare System 61

2.4 Big Data and Database Security and Protection 61

2.4.1 What is Big Data 61

2.4.2 Five V's of Big Data 62

2.4.2.1 Volume 62

2.4.2.2 Variety 63

2.4.2.3 Velocity 63

2.4.2.4 Veracity 64

2.4.2.5 Value 65

2.4.3 Architectural Framework of Big Data 65

2.4.4 Data Protection Versus Data Security in Healthcare 67

2.4.4.1 Phishing Attacks 67

2.4.4.2 Malware and Ransomware 67

2.4.4.3 Cloud Threats 67

2.4.5 Technology in Use to Secure the Healthcare Data 68

2.4.5.1 Access Control Policy 69

2.4.6 Monitoring and Auditing 69

2.4.7 Standard for Data Protection 70

2.4.7.1 Healthcare Standard in India 70

2.4.7.2 Security Technical Standards 71

2.4.7.3 Administrative Safeguards Standards 71

2.4.7.4 Physical Safeguard Standards 71

References 71

3 Ontology-Based System for Patient Monitoring 75
R. Mervin, Tintu Thomas and A. Jaya

3.1 Introduction 76

3.1.1 Basics of Ontology 77

3.1.2 Need of Ontology in Patient Monitoring 78

3.2 Literature Review 78

3.2.1 Uses of Ontology in Various Domains 78

3.2.2 Ontology in Patient Monitoring System 80

3.3 Architectural Design 80

3.3.1 Phases of Patient Monitoring System 82

3.3.2 Reasoner in Patient Monitoring 87

3.4 Experimental Results 88