IoT-enabled Smart Healthcare Systems, Services and Applications

>IoT-Enabled Smart Healthcare Systems, Services and Applications Explore the latest healthcare applications of cutting-edge technologies In IoT-Enabled Smart Healthcare Systems, Services and Applications, an accomplished team of researchers delivers an insightful and comprehensive exploration of...

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Bibliographic Details
Main Authors: Rani, Shalli, Rajagopal, Maheswar, Kumar, Neeraj, Shah, Syed Hassan Ahmed
Format: eBook
Language:English
Published: Newark Wiley 2022
John Wiley & Sons, Incorporated
Wiley-Blackwell
Edition:1
Subjects:
Medical informatics
ISBN:9781119816799, 1119816793
Online Access:Get full text
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Table of Contents:
  • Acknowledgments About the Editors List of Contributors [vendor, please compile from toc and chapter openers]   Sr. No.  Chapter Title      Authors 1             Role of Emerging Technologies in Smart Healthcare                Masooma Zehra Syeda, Dur-e-hassan ,Himanshi Babbar, masooma_zehra@hotmail.com   2             ICN-Fog computing for IoT based healthcare: architecture and challenges               Divya Gupta , Shalli Rani, and Syed Hassan Ahmed Shalli.rani@chitkara.edu.in 3             Internet of Things (IoT) Enabled Software Defined Networking (SDN) for Edge Computing in Healthcare              Himanshi Babbar , Shalli Rani, Neeraj Kumar  Shalli.rani@chitkara.edu.in   4             Security and Privacy Issues in Smart Healthcare System Using Internet of Things  R Nidhya, Manish Kumar, R. Maheswar, E SivaRaman nidhuraji88@gmail.com     5             An Overview of Architecture & Applications of IOT Based Health Care System                M.Saravanan, J. Ajayan, R. Maheswar, Eswaran Parthasarathy saranecedgl@gmail.com 6             A Review of e-healthcare System of India and Thailand    Shanu Bhardwaj, S.N. Panda, Priyanka Datta, Rajesh Kumar Kaushal, Naveen Kumar: shanu.bhardwaj@chitkara.edu.in, snpanda@chitkara.edu.in   7             WSN and IoT Based Smart Surveillance System for Patients with Closed-Loop Alarm               Amit Sundas, Sumit Badotra, Shalli Rani, Chhabildas Madhukar Gajare shalli.rani@chitkara.edu.in   8             An IoMT based Smart Remote Monitoring System for Healthcare               Chetna Kaushal, Md Khairul Islam, Anshu Singla, and Md Al Amin Anshu.single@chitkara.edu.in 9             A Multi-Domain Perspective of Future Directions for VANETs for Emergency Message Dissemination    Ravneet Kaur, Ramkumar Ketti Ramachandran, Robin Doss,1 and Lei Pan1 rkaur@deakin.edu.au   Index [list of terms to be supplied by editors at proofreading stage]
  • Cover -- Title Page -- Copyright Page -- Contents -- Preface -- Acknowledgments -- About the Editors -- List of Contributors -- Chapter 1 The Role of Emerging Technologies in Smart Healthcare -- 1.1 Introduction -- 1.2 Emerging Technologies in Smart Healthcare -- 1.2.1 Artificial Intelligence (AI) in Healthcare -- 1.2.2 Internet of Things (IoT) in Smart Healthcare -- 1.2.3 Blockchain in Smart Healthcare -- 1.2.4 3-Dimensional (3D) in Smart Healthcare -- 1.2.5 Fifth Generation (5G) in Smart Healthcare -- 1.3 Realization of SHC through Emerging Technologies (Applications) -- 1.3.1 Applications of AI -- 1.3.2 Applications of IoT -- 1.3.3 Application of Blockchain -- 1.3.4 Applications of 3D Printing -- 1.4 Conclusion -- Author Biography -- References -- Chapter 2 ICN-Fog Computing for IoT-Based Healthcare: Architecture and Challenges -- 2.1 Introduction -- 2.2 ICN in IoT -- 2.2.1 ICN Architecture -- 2.2.2 ICN Data Structures -- 2.3 IoT in Healthcare -- 2.4 Role of Fog Computing in IoT -- 2.5 Fog Computing in Healthcare: A Classification Approach -- 2.5.1 Patient Data -- 2.6 ICN-Fog Leveraging Healthcare Architecture -- 2.6.1 Health Gadgets Layer -- 2.6.2 ICN-Fog Computing Layer -- 2.6.3 Cloud Layer -- 2.7 Challenges in the Healthcare System -- 2.7.1 Organization of Data -- 2.7.2 Usage of Health Gadgets -- 2.7.3 Privacy and Security -- 2.7.4 Scalability -- 2.8 Conclusion -- References -- Chapter 3 Internet of Things (IoT) Enabled Software Defined Networking (SDN) for Load Balancing, Edge, Cloud Computing in Healthcare -- 3.1 Overview of Software-Defined Networking -- 3.2 Overview of Healthcare -- 3.2.1 How Software-Defined Networking (SDN) Is Benefitting Healthcare -- 3.3 Technologies Used in Software-Defined Networking (SDN) and HealthCare -- 3.3.1 Internet of Things in Software-Defined Networking -- 3.3.2 Edge Computing
  • 5.6.7 Micro Fluidic Biosensors -- 5.6.8 Polymer Organic Biosensors -- 5.7 IoT-Based Rehabilitation System -- 5.7.1 Automating Methodology in IOT Framework -- 5.7.2 Diagnosis Processing -- 5.7.3 Rehabilitation Strategy Design -- 5.7.4 Subsystem Design -- 5.7.5 Detail Design -- 5.7.6 Security in IoT -- 5.8 Future Work -- 5.9 Conclusion -- Authors' Biography -- References -- Chapter 6 A Review of e-Healthcare System of India and Thailand -- 6.1 Introduction -- 6.2 Literature Review -- 6.2.1 India -- 6.2.2 Thailand -- 6.3 Problem Statement -- 6.4 Methodology -- 6.5 Discussion -- 6.5.1 Country Differences -- 6.5.2 Parameters Considered -- 6.6 Conclusion -- References -- Chapter 7 WSN- and IoT-Based Smart Surveillance Systems for Patients with Closed-Loop Alarm -- 7.1 Introduction -- 7.1.1 Working of IoT -- 7.1.2 Wireless Sensor Networks (WSNs) -- 7.1.3 WSNs as a Subset of IoT -- 7.1.4 Motivation and Organization of the Chapter -- 7.2 Literature Review -- 7.2.1 Literature Review: Toward the Application of IoT and WSNs -- 7.3 Proposed Work: WSN and IoT-Based Smart Surveillance System for Patients with Closed-Loop Alarm -- 7.3.1 Methodology -- 7.4 Implementation and Evaluation of the WSN and IoT-Based Smart Surveillance System for Patients with Closed-Loop Alarm -- 7.4.1 Experimental Environment -- 7.4.2 Results and Discussion -- 7.5 Conclusion and Future Work -- 7.5.1 Conclusion -- 7.5.2 Future Work -- References -- Chapter 8 An IoMT-Based Smart Remote Monitoring System for Healthcare -- 8.1 Introduction -- 8.2 Literature Review -- 8.3 Methodology -- 8.3.1 IoT Device for Image Acquisition -- 8.3.2 Central Repository -- 8.3.3 Automatic Computer Assisted Diagnosis (ACAD) -- 8.3.4 Recommender System -- 8.4 Use Case of Real-Time Remote Monitoring System -- 8.4.1 Patient Remote Monitoring -- 8.4.2 Management and Scheduling -- 8.4.3 Cloud Information Exchange
  • 8.4.4 Device Malfunctioning -- 8.5 Conclusion -- References -- Chapter 9 A Multi-Domain Perspective of Future Directions for VANETs for Emergency Message Dissemination -- 9.1 Introduction -- 9.2 Future Directions of Multi-Domain VANETs Emergency Message Dissemination -- 9.2.1 Relationship of VANETs with IoT, Blockchain, and Fog Computing -- 9.3 Role of VANETs in Healthcare Systems -- 9.3.1 Case Study -- 9.4 Techniques Used for Fast Delivery of Emergency Message in VANETs to Help the Healthcare System -- 9.4.1 Role of Clustering in VANETs for Healthcare System -- 9.4.2 Role of Clustering in VANETs with IoT for Healthcare System -- 9.4.3 Role of Clustering in VANETs with Fog Computing for Healthcare System -- 9.4.4 Role of Clustering in VANETs with Blockchain for Healthcare System -- 9.4.5 Implications of Multi-Domain Perspective of VANETs for Emergency Message Dissemination -- 9.5 Current Facilities and Limitations for Implementing the Real-Time Environment -- 9.6 Discussion on Upcoming Trends and Possibilities with Future Readings -- 9.7 Conclusion -- Notes -- Author Biography -- References -- Index -- EULA
  • 3.3.3 Cloud Computing in Software-Defined Networking -- 3.3.4 Load Balancing in Software-Defined Networking -- 3.4 Use Cases of Software-Defined Networking in Healthcare -- 3.5 Research Directions -- 3.6 Conclusion -- Key Points -- Author Biography -- References -- Chapter 4 Security and Privacy Issues in Smart Healthcare System Using Internet of Things -- 4.1 Introduction -- 4.2 Overview of Internet of Things in Smart Healthcare Systems -- 4.3 Policies and Legislation Related to Smart Healthcare -- 4.3.1 HIPAA in Privacy Rule -- 4.3.2 Federal Information Security Management Act (FISMA) -- 4.4 Security and Privacy Issues in Smart Healthcare Based on Internet of Things -- 4.4.1 Security Issues in Smart Healthcare IoT Applications -- 4.4.2 Privacy Issues in Smart Healthcare IoT Applications -- 4.5 Issues in Location Privacy -- 4.6 Issues in Privacy of Stored Data and Threats Identity -- 4.7 Conclusion -- Author Biography -- References -- Chapter 5 An Overview of Architecture and Applications of IoT-Based Health Care Systems -- 5.1 Introduction -- 5.2 Overview of the Healthcare System -- 5.3 Working Prototype of Healthcare System Using BAN -- 5.3.1 Microcontroller (Raspberry Pi) -- 5.3.2 Adopting Wearables and IOT -- 5.3.3 Wearable Backend Servers -- 5.4 On-Body Sensors and Sensor Embodiment -- 5.4.1 Smart Sensors -- 5.4.2 Gas Sensors -- 5.4.3 Bio-Chemical Sensors -- 5.4.4 Wireless Data Collection -- 5.4.5 Wireless Routing Techniques -- 5.5 Vital Signs Monitoring -- 5.5.1 Pulse Oxygenation -- 5.5.2 Blood Pressure -- 5.5.3 Respiration Rate -- 5.5.4 Heart Rate -- 5.5.5 Body Temperature -- 5.5.6 Blood Glucose -- 5.6 Biosensors in M-Health -- 5.6.1 Bioresorbable Biosensors -- 5.6.2 Electrochemical Biosensors -- 5.6.3 Enzymatic Biosensors -- 5.6.4 FET Biosensors -- 5.6.5 Flexible and Wearable Biosensors -- 5.6.6 Metal Oxide Biosensors