The text covers the advanced and innovative concept of green communication networks using the Internet of Things in different fields including cloud technology, agriculture, the automobile sector, and robotics. It will also help the readers in learning the efficient use of sensors and devices in the internet of things networks. The text covers 5G communication and its application for intelligent and green network-enabled internet of things. It will serve as an ideal reference text for senior undergraduate, graduate students, and academic researchers in the fields of electrical engineering, electronics and communication engineering, computer engineering, and information technology.
The book
- Discusses intelligent and green networking-enabled internet of things
- Covers architectures and models for intelligent and green communication networks enabled Internet of Things
- Discusses designing Internet of Things devices that help in reducing the emissions of CO2 in the environment and energy consumption
- Highlights green computing approach and green communication network designs and implementations for Internet of Things ecosystem
- Includes case studies on energy-aware systems, technologies, and green communication
The book comprehensively discusses recent advances and applications in the area of green internet of things communication in a single volume. The text will be helpful for senior undergraduate, graduate students, and academic researchers in diverse engineering fields including electrical, electronics and communication, and computer.
Author(s): Rajan Patel, Nimisha Patel, Linda Smail, Pariza Kamboj, Mukesh Soni
Publisher: CRC Press
Year: 2023
Language: English
Pages: 266
City: Boca Raton
Cover
Half Title
Title Page
Copyright Page
Table of Contents
Editors
List of Contributors
1 Green IoT: Need, Architecture, Applications, Challenges, and Future Scope
1.1 Introduction of Green IoT
1.2 Need for Green IoT
1.3 Architecture of Green IoT
1.4 Applications of Green IoT
1.4.1 Smart Home
1.4.2 Industrial Automation
1.4.3 Smart Healthcare
1.4.4 Smart Grid
1.4.5 Smart Cities
1.4.6 Smart Agriculture
1.5 Challenges
1.6 Future Scope
1.7 Conclusion
References
2 Green IoT: Future Direction and Open Challenges
2.1 Introduction
2.1.1 Internet of Things
2.1.2 IoT Architecture
2.1.3 Green IoT
2.1.4 Green IoT Principles
2.1.5 Green IoT Technologies
2.1.6 Advantages and Disadvantages of Green IoT
2.1.7 Life Cycle of Green IoT
2.2 Application of Green IoT
2.2.1 Smart Cities
2.2.2 Smart E-health
2.2.3 Smart Agriculture
2.2.4 Smart Home
2.2.5 Smart Grid
2.2.6 Smart Industry and Manufacturing
2.3 Green IoT Implementation Strategies
2.4 Open Challenges and Future Research Directions
2.4.1 Future Research Direction
2.4.2 Tools and Technology
2.5 Conclusion
References
3 Enabling Sustainable Technologies Using the Internet of Things for Industry 4.0
3.1 Introduction
3.2 Industry 4.0
3.2.1 Sustainable Development in Industry 4.0
3.3 Intelligence in Industrial IoT
3.3.1 Artificial Intelligence
3.3.2 Machine Learning
3.3.3 Deep Learning
3.4 Analytics and Data Management in IIoT
3.4.1 Big Data and Advanced Analysis
3.5 Case Study: Future of Smart Transportation
3.5.1 Advantages and Applications of IoV in Smart Transportation
3.6 Conclusion
References
4 IoT Deployment: What Cloud has to Offer?
4.1 Introduction
4.2 Significance of Cloud for IoT Deployment
4.3 Cloud Platforms for IoT Deployment
4.3.1 Amazon Web Services (AWS) IoT
4.3.2 Microsoft Azure IoT
4.3.3 Google Cloud IoT Solution
4.3.4 Ibm Watson IoT
4.3.5 Siemens Mindsphere
4.3.6 Bosch IoT Platform
4.4 Application Domain
4.4.1 Agriculture
4.4.2 Smart City
4.4.3 Healthcare
4.4.4 Smart Home and Smart Metering
4.4.5 Smart Energy and Smart Grid
4.5 Green Cloud and Fog Computing as Enabling Technologies for Green IoT
4.6 Green IoT Applications
4.7 Conclusion
References
5 A New Optimal Protocol for Green IoT Communication
5.1 Introduction
5.2 Network Coding
5.3 Topology Control
5.4 Combined Network Coding and Topology Control
5.5 Considering The Receiving Energy
5.6 Results
5.7 Conclusion
References
6 Pharmaceutical Supply Chain Management System Using Blockchain and IoT Technology
6.1 Introduction
6.2 Theoretical Framework and Design Consideration of Proposed System
6.2.1 System Diagram
6.3 Project Component
6.3.1 Blockchain
6.3.2 IoT
6.3.3 End User
6.4 Summary
References
7 Intelligent Green Communication Network for IoT Applications
7.1 Smart Cities
7.2 Smart Healthcare
7.3 Smart Buildings
7.4 Smart Education
7.5 Smart Data Center
7.5.1 Five Basic IoT Applications for Server Farm Foundation Boards
7.6 Smart Parking System
7.7 Smart Transport System
7.8 Smart Power Supply
7.9 Smart Automobile
7.10 Smart Industry and Automation
7.11 Smart Food and Supply Chain
7.12 Smart Agriculture
7.13 Smart Resource Management
7.14 Smart Waste Management
7.15 Smart Water Management System
References
8 Scalable and Energy-Efficient Intelligent Schemes for Green IoT
8.1 Introduction
8.2 Heterogeneous Wireless Network
8.3 Intelligent and Green Sensor
8.4 Green Cloud Computing (GCC) Technology
8.5 Wireless Sensor Network (WSN)
8.6 Green Iot Approaches
8.7 Green Machine-To-Machine Technology (M2M)
8.8 Green Communication and Networking
References
9 Energy-Efficient Clustering Protocol for IoT-Based Unmanned Aerial Vehicles
9.1 Introduction
9.2 Related Work
9.3 Improved Artificial Bee Colony ( IABC) Metaheuristic
9.3.1 Improved Initialization Phase
9.3.2 Improved Solution Search Equation
9.3.3 Improved Clustering Protocol—iABC[sup(2)]
9.4 Results and Discussion
9.5 Conclusion
References
10 Comprehensive Study on Next-Generation IoT: Energy-Efficient Green IoT
10.1 Introduction
10.2 Principles of Energy-Efficient Green IoT
10.3 Enabling Energy-Efficient Technologies for Communication and Monitoring
10.4 Communication Protocols for IoT
10.5 Data Visualization for IoT
10.5.1 Data Visualization in IoT Applications Using Charts
10.5.2 Tools for Data Visualization in IoT Applications
10.6 Challenges and Issues for Energy-Efficient Green IoT
10.7 Energy-Efficient IoT Application
10.8 Conclusion
References
11 Integrating IoT Technology for Effective Agriculture Monitoring: An Approach to Smart Farming System
11.1 Introduction
11.2 Proposed System
11.2.1 Arduino Mega 2560
11.2.2 Temperature and Humidity Sensor (DHT11)
11.2.3 Soil Moisture Sensor (FC-28)
11.2.4 PIR Sensor (HC-SR501)
11.2.5 Ultrasonic Sensor (HC-SR04)
11.2.6 Flame Sensor
11.2.7 Sound Sensor
11.2.8 Water Level Sensor
11.2.9 LDR Sensor
11.2.10 Node MCU ESP8266
11.3 Results and Discussion
11.3.1 Simulation Results
11.3.2 Experimental Results
11.4 Conclusion
References
12 Enforcement of IoT for Potent Oversight of Toxic Levels in The Construction and Demolition Waste at an Industrial Vicinage
12.1 Introduction
12.2 Introduction: Background and Driving Forces
12.3 Usage of LoRa WAN for Waste Collections
12.4 Features
12.4.1 Ultrasonic Sensor
12.4.2 GPS Module
12.4.3 Gateway
12.4.4 The Server and The GUI
12.5 Conclusion
References
13 Smart Water Management System for Water Level and Quality Detection, Monitoring, and Control in Residential Structures
13.1 Introduction
13.2 Literature Survey
13.2.1 Comparisons of Various Research Schemes
13.3 Measurement Parameters of System
13.4 Methodology of The Proposed System
13.5 System Design
13.5.1 Software
13.5.2 Hardware Components
13.5.2.1 Arduino UNO
13.5.2.2 Ultrasonic Sensor
13.5.2.3 Turbidity Module
13.5.2.4 LCD Display (16[sup(*)]2 I2C)
13.5.2.5 Relay Module (JQC-3FF-S-Z)
13.6 Data Modeling Diagrams
13.6.1 Sequence Diagrams
13.6.2 Activity Diagrams
13.7 Demo of Work
13.8 Conclusion
References
14 A Novel Approach for Vehicle Detection to Avoid Accidents in The Construction Area
14.1 Introduction
14.2 Literature Study
14.3 Proposed System
14.4 Precautionary Measures
14.5 Methodology
14.6 Algorithm for Proposed System
14.7 Implementation
14.7.1 Hardware Specifications
14.7.2 Software Specification
14.7.3 Raspberry Pi 3
14.7.4 Display Module
14.7.5 Ultrasonic Sensor & Buzzer
14.7.6 GPS Receiver
14.8 Results and Discussion
14.9 Advantages and Disadvantages of the System
14.10 Conclusion and Future Work
References
15 Smart Home Security
15.1 Introduction of IoT
15.1.1 IoT Applications
15.1.2 Smart Home - Latest Developments
15.1.3 Security Challenges
15.1.4 Recent Attacks on IoT
15.2 Device-Oriented Security Challenges
15.3 Network-Oriented Security Challenges
15.4 Application-Oriented Security Challenges
15.5 Conclusion
References
Index
