15 8 An IoMT ‐Based Smart Remote Monitoring System for Healthcare 8.1 Introduction 8.2 Literature Review 8.3 Methodology 8.4 Use Case of Real‐Time Remote Monitoring System 8.5 Conclusion References
16 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 9.3 Role of VANETs in Healthcare Systems 9.4 Techniques Used for Fast Delivery of Emergency Message in VANETs to Help the Healthcare System 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 Author Biography References
17 Index
List of Tables
1 Chapter 4Table 4.1 FISMA laws.
2 Chapter 5Table 5.1 Comparison table of gas sensors and its concepts.Table 5.2 Heart rate comparison table.
3 Chapter 6Table 6.1 Difference between health facilities in rural and urban India [41...
4 Chapter 9Table 9.1 Limitations of VANETs with (a) IoT being an IoV, (b) fog computin...
List of Illustrations
1 Chapter 1Figure 1.1 OECD countries, science and technology.
2 Chapter 2Figure 2.1 NDN hourglass architecture.Figure 2.2 NDN packet format.Figure 2.3 IoT in healthcare.Figure 2.4 Fog computing in IoT.Figure 2.5 ICN‐Fog computing in healthcare.
3 Chapter 3Figure 3.1 Technologies of SDN in healthcare.Figure 3.2 SDN‐IoT based on healthcare network.Figure 3.3 Edge based on SDN in e‐healthcare.Figure 3.4 Architecture of load balancing in SDN healthcare.Figure 3.5 Software‐defined networking in healthcare.
4 Chapter 4Figure 4.1 Architecture of Smart HealthCare System (SHC).
5 Chapter 5Figure 5.1 Architecture of health care system.Figure 5.2 Working flow of health care system.Figure 5.3 Raspberry Pi module.Figure 5.4 Integrating IOT ecosystem.Figure 5.5 Schematic diagram of gas sensor.Figure 5.6 Segments of bio‐chemical sensor.Figure 5.7 Wireless sensor network architecture.Figure 5.8 Readings of pulse oximetry.Figure 5.9 Working of blood pressure sensor.Figure 5.10 Measurement of respiration rate.Figure 5.11 Measuring body temperature.Figure 5.12 Schematic diagram of CGM.Figure 5.13 Bio sensors‐ bio signals to electric signals.Figure 5.14 Block diagram of IOT rehabilitation system.Figure 5.15 Framework of rehabilitation system methodology.Figure 5.16 Services and applications of IOT.
6 Chapter 6Figure 6.1 Number of publications of India and Thailand on e healthcare syst...Figure 6.2 Number of publication on rural e‐healthcare system in India and T...Figure 6.3 Number of publication on technology used in e‐healthcare system o...Figure 6.4 Number of publication on cost‐effectiveness of e‐healthcare syste...
7 Chapter 7Figure 7.1 Working of IoT.Figure 7.2 Wireless sensor network.Figure 7.3 Underground WSNs.Figure 7.4 Underwater WSNs.Figure 7.5 Multimedia WSNs.Figure 7.6 Applications of wireless sensor networks.Figure 7.7 Sensors used in experiments.Figure 7.8 The proposed model architecture.Figure 7.9 Methodology flowchart.Figure 7.10 Channel details.Figure 7.11 Raw data.Figure 7.12 Link to read a channel feed [28].Figure 7.13 WeMos D1 mini – Mini NodeMcu [29].Figure 7.14 Ardunio IDE software [30].Figure 7.15 ThingSpeak IoT platform [31].Figure 7.16 Connection architecture of all the components.Figure 7.17 MAX30102 pulse oximeter/heart‐rate sensor.Figure 7.18 MAX30102 pulse oximeter sensor data in Arduino IDE.Figure 7.19 Pulse sensor.Figure 7.20 Pulse sensor data in Arduino IDE.Figure 7.21 Accelerometer sensor.Figure 7.22 Accelerometer data in Arduino IDE.Figure 7.23 MAX6675 sensor data in Arduino IDE.Figure 7.24 MAX6675 sensor data in Arduino IDE.Figure 7.25 MAX30102 pulse oximeter sensor data in ThingSpeak.Figure 7.26 Temperature sensor data in ThingSpeak.Figure 7.27 (a) Data of accelerometer of x‐axis sent in ThingSpeak. (b) Data...Figure 7.28 Pulse sensor data in ThingSpeak.Figure 7.29 Sign‐In/‐Up interface.Figure 7.30 Patients data in Android application.Figure 7.31 Patients data with alert.
8 Chapter 8Figure 8.1 Different types of cancer cases found in the world in 2018.Figure 8.2 Cervical cancer cases and deaths depending on the HDI value of co...Figure 8.3 Proposed methodology for IoMT‐based smart remote monitoring syste...Figure 8.4 Automated IoT‐based image acquisition process.Figure 8.5 An IoMT‐based smart remote monitoring system for cervix cancer.
9 Chapter 9Figure 9.1 Applications are defined. There are five text documents that expl...Figure 9.2 Diagrammatic representation of multi‐domain future perspective of...Figure 9.3 Diagrammatic representation of multi‐domain future perspective of...Figure 9.4 Emerging research directions in VANETs with multi‐domain perspect...
Guide
4 Preface
8