Overview

Healthcare has become an extremely important and relevant topic in day to day discussions ever since the COVID-19 pandemic has been encountered by the global population. This has led to a renewed focus and attention that researchers from every discipline have put in to realize better strategies for healthcare management in general. This book is an attempt to put to use recent advancements in the field of the Internet of Medical Things often called IoMT, which is an extension of IoT for real-time, data analytics-driven prompt and quality healthcare to global citizens. Security has been always a challenge with pervasive technologies like IoMT and IoT, and thus usage of disruptive technology like blockchain to offset the security concerns that surround the data and network management. Therefore, this book is an honest attempt to provide directions to applied areas of research in IoMT for healthcare with the aid and help of Blockchain Technologies.

Full Product Details

Author:   Sunil Gupta ,  Hitesh Kumar Sharma ,  Monit Kapoor
Publisher:   Springer International Publishing AG
Imprint:   Springer International Publishing AG
Edition:   1st ed. 2023
Weight:   0.500kg
ISBN:  

9783031188954

ISBN 10:   3031188950
Pages:   197
Publication Date:   15 December 2022
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   Manufactured on demand  
We will order this item for you from a manufactured on demand supplier.

Table of Contents

1. Chapter1.1. Introduction 1.2. Smart Healthcare and Telemedical System 1.2.1. Smart Healthcare Technology 1.2.2. Remote monitoring and automated healthcare system 1.2.3. Remote Care and Telehealth 1.2.4. Emergency response solution for connectivity 1.2.5. Smart Hospital Management 1.3. Telemedical Healthcare 1.3.1. Registration Phase 1.3.2. Login Phase and Mutual Authentication 1.3.3. Telemedicine Server 1.4. Intelligent Medical Care using IoT 1.5. Smart Healthcare: Challenges and Threats Conclusion References 2. Chapter 2.1. Introduction 2.2. IoT Related Sub-Components 2.2.1. Embedded programming 2.2.2. Hardware device 2.2.3. Security 2.2.4. Networking and cloud Integration 2.2.5. Data Analytics and prediction 2.2.6. Machine Learning and AI 2.3. Architecture of IoT   2.3.1. Sensors and Actuators 2.3.2. Internet gateway 2.3.3. Edge Computing IT System 2.3.4. Data Centre and Cloud 2.3.5. Application of IoT 2.3.6. Smart Homes 2.3.7. Smart Agriculture 2.3.8. Energy Management 2.3.9. Industrial Internet 2.4. IoT In Healthcare 2.4.1. Remote patient monitoring 2.4.2. Real time Data Tracking 2.4.3. Connected wearables 2.5. Internet of Medical Things (IoMT or IoMedT) 2.6. Challenges for IoMT Conclusion References 3. Chapter 3.1. Introduction 3.2. IoT Components 3.2.1. Devices/Sensors 3.2.2. Connectivity 3.2.3. Data Processing 3.2.4. User Interface 3.3. IoMedT Components 3.3.1. Patient and Payer 3.3.2. Connected Medical Devices 3.3.3. Communication Services (Connectivity) 3.3.4. Analytics Platform (Data Processing   3.3.5. Service Providers 3.4. Integration of Latest Technology with IoMedT  3.5. Benefits and Challenges of IoMedT  3.5.1. Benefits of IoMedT  3.5.2. Challenges in IoMedT Conclusion References 4. Chapter  4.1. Introduction to Smart healthcare and IoMT 4.2. Perception layer - Sensor systems for data collection  4.2.1. Gateway layer  4.2.2. Management service layer/application support layer- data storage  4.2.3. Application/service layer  4.3. IoMT: A boon in healthcare 4.4. Challenges of IoMT  4.5. Benefits of IoMT  4.6. Structural components of IoMT  4.7. Functional components of IoMT 4.8. Structural and Functional Challenges  Conclusion References 5. Chapter 5.1. Introduction 5.2. Working of Blockchain  5.2.1. Distributed Database 5.2.2. A network of nodes 5.2.3. Building Trust 5.3. Benefits of Blockchain Technology 5.3.1. Time-saving   5.3.2. Cost-saving  5.3.3. Tighter security 5.4. Application of Blockchain  5.4.1. Asset Management  5.4.2. Cross-Border Payments  5.4.3. Healthcare  5.4.4. Cryptocurrency  5.4.5. Birth and Death Certificates  5.4.6. Online Identity Verification 5.4.7. Internet of Things  5.4.8. Copyright and Royalties  5.5. Application of Blockchain in Smart Healthcare  5.5.1. Research  5.5.2. Seamless switching of patients between providers  5.5.3. Faster, cheaper, better patient care  5.5.4. Interoperable electronic health records  5.5.5. Data security  5.5.6. Mobile health apps and remote monitoring  5.5.7. Tracing and securing medical supplies  5.5.8. Health insurance claims  5.5.9. Tracking diseases and outbreaks  5.5.10. Safeguarding genomics  Conclusion References 6. Chapter  6.1. Introduction 6.2. Possible Security Attacks in DMR Internet of Things Networks 6.3. Security Schemes and There Challenges in DMR Conclusion   References 7. Chapter 7.1. Introduction  7.2. Benefits of IoMT in Smart Healthcare  7.2.1. Cost Reduction  7.2.2. Improve Treatment  7.2.3. Faster Disease Diagnosis  7.2.4. Drug and Equipment Management  7.2.5. Error Reduction  7.3. Tools and Technique for IoMT in Smart Healthcare  7.3.1. Electronic Health Record (EHR)  7.3.2. Referral Trackers  7.3.3. Patient Portals  7.3.4. Remote Patient Monitoring  7.3.5. Computerized Provider Order Entry  7.4. Use case of IoMT in Healthcare Industry  7.4.1. Internet of things for patients 7.4.2. Internet of things for Hospitals  7.4.3. Internet of things for Physicians 7.4.4. Internet of things for Business  7.4.5. Internet of things for Health Insurance Companies  7.5. Privacy and Security Issue in IoMT 7.5.1. Patients are not in charge of their own information  7.5.2. Present to Your Own Device (BYOD)  7.5.3. Telecommuting presents security chances  7.6. Challenges of IoMT in Smart Healthcare  7.6.1. Underdeveloped Initiatives  7.6.2. Unavailability of Memory  7.6.3. Keeping Updated  7.6.4. Data Security  7.6.5. Global healthcare regulations  7.6.6. Scalable Platforms  7.6.7. Data Overloading  7.7. Impact of IoMT on the future of the healthcare industry  Conclusion  References 8. Chapter  8.1. Introduction  8.1.1. Big Data relation with Cloud Computing  8.1.2. Relationship between IoMT and Big Data 8.1.3. Big Data and the Internet of Medical Things  8.1.4. IoT and Cloud Computing 8.1.5. Benefits of using big data, IoT and the cloud  8.2. IoMT needs to be integrated with cloud computing  8.3. Integration of IoT and Cloud Computing  8.4. Benefits of integrating IoT and cloud computing  Conclusion  References  9. Chapter  9.1. Introduction 9.1.1. IoT in Smart Healthcare Systems 9.2. Background/Present state in Data security 9.2.1. Data Security requirements in Smart Healthcare Systems 9.3. Privacy and QoS in smart healthcare 9.4. Data Security and Privacy Issues in Healthcare  9.5. QoS Parameters for Smart Healthcare 9.6. Suggested Security Techniques to Preserve QoS Conclusion   References  10. Chapter  10.1. Introduction 10.2. Authentication Schemes for Tele Medical Healthcare System 10.3. Processes of an authentication protocol Conclusion  References  11. Chapter  11.1. Introduction 11.1.1. Security  11.1.2. Features 11.2. Types of Blockchain Networks  11.2.1. Public blockchain network  11.2.2. Private blockchain network 11.2.3. Permissioned blockchain network 11.2.4. Consortium Blockchain networks 11.3. Applications of Blockchain 11.3.1. Smart contracts 11.3.2. Involving Blockchain into Internet of Things (IOT) 11.3.3. Preventing Identity Theft  11.4. Application of Blockchain in Smart Healthcare 11.4.1. Keeping transparency in delivering healthcare goods 11.4.2. Storing of medical data of patients 11.4.3. Remote health monitoring using IOT and blockchain  11.5. Electronic Health Record (EHR) and its Storage 11.5.1. Medical Big Data Mining and Processing in e-Healthcar 11.5.2. Smart healthcare systems using big data 11.6. Significance of Blockchain in Security of Electronic Health Record (EHR) Conclusion References  12. Chapter  12.1. Introduction 12.1.1. A Different Healthcare World 12.2. Components of Telemedicine 12.2.1. Teleconsultation 12.2.2. Telementoring 12.2.3. Telemonitoring 12.3. Emerging technologies in telemedicine  12.3.1. Technologies proceeding telemedicine 12.3.2. mRNA Technology 12.3.3. Neurotechnology 12.3.4. Precision Medicine 12.3.5. Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR) 12.3.6. Health Wearables 12.3.7. Technology in Mental Health 12.3.8. Artificial Intelligence 12.3.9. Augmented and virtual reality 12.3.10. Tele-robots  12.3.11. IoT and nanotechnology  12.3.12. 3D Printing 12.3.13. Enhanced Access to Medical Data and Information 12.3.14. Big Data 12.3.15. Improved Lines of Communication 12.3.16. Electronic Health Records 12.3.17. Metaverse Conclusion  References  13. Chapter 13.1. Introduction 13.1.1. AI and Machine Learning  13.1.2. Cloud Computing  13.1.3. Cyber security/Cloud Security  13.2. Role of Artificial Intelligence, Cloud Computing, and Internet Security in Smart Healthcare   13.2.1. Artificial Intelligence and Machine Learning (AIML) in Healthcare Systems 182 13.2.2. Early Cancer Diagnosis  13.2.3. Diagnosis of Fatal Blood Diseases  13.2.4. Customer Service Chatbots  13.2.5. Managing the Medical Records  13.2.6. Dosage Errors  13.2.7. Robotic Surgeries  13.3. Cloud Computing in Healthcare Systems  13.4. Security Challenge in Smart Healthcare  Conclusion References   14. Chapter   14.1. Introduction  14.1.1. Capturing storage techniques for healthcare data  14.1.2. About Healthcare Data  14.1.3. Data storage  14.1.4. Onsite data storage  14.1.5. Public cloud data storage  14.1.6. Hybrid cloud data storage solution  14.1.7. Benefits of storing data on the cloud from multiple sources  14.2. ML-enabled storage systems  14.3. The current state of technology  14.4. Enhancing existing Enterprise Data Warehouses (EDW)  14.5. Background work  14.6. ML techniques for treatment of healthcare data  14.7. Smart access techniques for storage systems  14.8. Prediction of diseases on healthcare data, both batch, and real-time data streams 197 Conclusion   References   15. Chapter   15.1. Introduction  15.2. Smart Healthcare Tools and Techniques  15.2.1. Cloud Computing in Smart Healthcare  15.2.2. Medical Records Centralization  15.2.3. Promoting Patient Engagement  15.2.4. Better Scalability  15.2.5. Cost-Effectiveness  15.2.6. Advanced Analytics for Healthcare  15.3. Current and Future application of AI, IoT, Blockchain and Cloud Computing in Smart Healthcare  . 210 15.3.1. Applications of Artificial Intelligence in Smart Healthcare  15.3.2. Machine learning neural networks and deep learning  15.3.3. Physical robots 15.3.4. Natural language processing (NLP)  15.3.5. Applications of Internet of Things (IoT) in Smart Healthcare 15.3.6. Applications of Blockchain in Smart Healthcare  15.3.7. Applications of Cloud Computing in Smart Healthcare  15.4. Challenges in Smart Healthcare  15.4.1. Availability  15.4.2. Data Centralization  15.4.3. Privacy/Security  15.4.4. Open Access 15.5. Future of Smart Healthcare and Telemedicine Conclusion References

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Author Information

​Dr Sunil Gupta has over more than 19 Years of experience in teaching, research and industry in the field of Computer science and Engineering. Prior to joining UPES as a Professor, he has worked with, BML Munjal University, Delhi Technical Campus, IP University, Northern India Engineering College, IP University, IIMT, Baddi University of Emerging Science, IFTM University. He has conducted various workshops, conferences and FDP. He Guides various students for research and project work. He is an authored many research papers, Six Patents and Two textbooks, namely Cryptography and Network Security and Wireless Sensor Networks. His academic interest includes Security, Cloud Computing, Big Data, Sensor, Wireless Networks, and Healthcare. He has been regularly invited as a technical expert in different committees by both private and government organizations. As an Expert for Recruiting faculty by different colleges affiliated to GGSIPU. Nominated in JAC (Joint Assessment Committee) as a Technical Expert by GGSIPU to Evaluate the functioning of various colleges (both Govt. and Private) affiliated to it. He is a Reviewer of International Journal namely Journal of Supercomputing, published by Springer Netherlands., International Journal of Wireless Networks by Springer, International Journal Computer and Electrical Engineering, Singapore. Dr Hitesh Kumar Sharma is working as Senior Associate Professor at School of Computer Science, University of Petroleum and Energy Studies, Dehradun, Uttarakhand, India. He did his Ph.D. in Database Performance Tuning in 2016. He has completed his M.Tech. in 2009. Currently he is also working in Machine Learning, Deep Learning, Image Processing and IoT with Blockchain. He has authored more than 60 research articles in the journal and conferences of repute nationally and internationally. Dr. Sharma have authored 04 books and 30+-book chapter with international publishers like Springer. He is active Guest Editor/Reviewer of various referred International journals. He has delivered various Keynote/Guest speech in India and abroad. He got many certifications in DevOps in last two years. He has also published 20 Patents in his academic career in last few years. Dr Monit Kapoor is currently serving at Chitkara University, Punjab, India as Dean in Department of Computer Science and Engineering. He has around 25 years of experience out of which 15 years has been in academia and 10 years has been in industry. He has guided 2 PhD scholars in the area of Sensor networks and Flying Ad hoc networks, whose PhD is completed and in addition to this he is currently guiding 4 PhD scholars in the area of Mobile Security, Vehicular Fog Computing and Artificial Intelligence. He has a total of 25 Publications to his credit in reputed journals and conferences. He has filed 5 patents as well. He is a reviewer of many international journals and has been on TPC and acted as session chair in many international conferences of repute. He is part of a working group on Mobile Security Guidelines set up by Ministry of Electronics and IT(MEITY), Government of India. He has been recognized as among top 50 tech savvy academicians in India in year 2020. In his free time, he likes to tune into music, and he loves to travel to far off destinations around the country during breaks

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