Unmanned aerial vehicles for Internet of Things (IoT) : concepts, techniques, and applications /: concepts, techniques, and applications. (2021)
- Record Type:
- Book
- Title:
- Unmanned aerial vehicles for Internet of Things (IoT) : concepts, techniques, and applications /: concepts, techniques, and applications. (2021)
- Main Title:
- Unmanned aerial vehicles for Internet of Things (IoT) : concepts, techniques, and applications
- Further Information:
- Note: Edited by Yashwant Singh, Ravindara Bhatt, Anuj Kumar Gupta, Vandana Mohindru.
- Editors:
- Singh, Yashwant
Bhatt, Ravindara
Gupta, Anuj Kumar
Mohindru, Vandana - Contents:
- Preface xvii 1 Unmanned Aerial Vehicle (UAV): A Comprehensive Survey 1; Rohit Chaurasia and Vandana Mohindru 1.1 Introduction 2 1.2 Related Work 2 1.3 UAV Technology 3 1.3.1 UAV Platforms 3 1.3.1.1 Fixed-Wing Drones 3 1.3.1.2 Multi-Rotor Drones 4 1.3.1.3 Single-Rotor Drones 5 1.3.1.4 Fixed-Wing Hybrid VTOL 6 1.3.2 Categories of the Military Drones 6 1.3.3 How Drones Work 8 1.3.3.1 Firmware—Platform Construction and Design 9 1.3.4 Comparison of Various Technologies 10 1.3.4.1 Drone Types & Sizes 10 1.3.4.2 Radar Positioning and Return to Home 10 1.3.4.3 GNSS on Ground Control Station 11 1.3.4.4 Collision Avoidance Technology and Obstacle Detection 11 1.3.4.5 Gyroscopic Stabilization, Flight Controllers and IMU 12 1.3.4.6 UAV Drone Propulsion System 12 1.3.4.7 Flight Parameters Through Telemetry 13 1.3.4.8 Drone Security & Hacking 13 1.3.4.9 3D Maps and Models With Drone Sensors 13 1.3.5 UAV Communication Network 15 1.3.5.1 Classification on the Basis of Spectrum Perspective 15 1.3.5.2 Various Types of Radio communication Links 16 1.3.5.3 VLOS (Visual Line-of-Sight) and BLOS (Beyond Line-of-Sight) Communication in Unmanned Aircraft System 18 1.3.5.4 Frequency Bands for the Operation of UAS 19 1.3.5.5 Cellular Technology for UAS Operation 19 1.4 Application of UAV 21 1.4.1 In Military 21 1.4.2 In Geomorphological Mapping and Other Similar Sectors 22 1.4.3 In Agriculture 22 1.5 UAV Challenges 23 1.6 Conclusion and Future Scope 24 References 24 2 Unmanned Aerial Vehicles:Preface xvii 1 Unmanned Aerial Vehicle (UAV): A Comprehensive Survey 1; Rohit Chaurasia and Vandana Mohindru 1.1 Introduction 2 1.2 Related Work 2 1.3 UAV Technology 3 1.3.1 UAV Platforms 3 1.3.1.1 Fixed-Wing Drones 3 1.3.1.2 Multi-Rotor Drones 4 1.3.1.3 Single-Rotor Drones 5 1.3.1.4 Fixed-Wing Hybrid VTOL 6 1.3.2 Categories of the Military Drones 6 1.3.3 How Drones Work 8 1.3.3.1 Firmware—Platform Construction and Design 9 1.3.4 Comparison of Various Technologies 10 1.3.4.1 Drone Types & Sizes 10 1.3.4.2 Radar Positioning and Return to Home 10 1.3.4.3 GNSS on Ground Control Station 11 1.3.4.4 Collision Avoidance Technology and Obstacle Detection 11 1.3.4.5 Gyroscopic Stabilization, Flight Controllers and IMU 12 1.3.4.6 UAV Drone Propulsion System 12 1.3.4.7 Flight Parameters Through Telemetry 13 1.3.4.8 Drone Security & Hacking 13 1.3.4.9 3D Maps and Models With Drone Sensors 13 1.3.5 UAV Communication Network 15 1.3.5.1 Classification on the Basis of Spectrum Perspective 15 1.3.5.2 Various Types of Radio communication Links 16 1.3.5.3 VLOS (Visual Line-of-Sight) and BLOS (Beyond Line-of-Sight) Communication in Unmanned Aircraft System 18 1.3.5.4 Frequency Bands for the Operation of UAS 19 1.3.5.5 Cellular Technology for UAS Operation 19 1.4 Application of UAV 21 1.4.1 In Military 21 1.4.2 In Geomorphological Mapping and Other Similar Sectors 22 1.4.3 In Agriculture 22 1.5 UAV Challenges 23 1.6 Conclusion and Future Scope 24 References 24 2 Unmanned Aerial Vehicles: State-of-the-Art, Challenges and Future Scope 29; Jolly Parikh and Anuradha Basu 2.1 Introduction 30 2.2 Technical Challenges 30 2.2.1 Variations in Channel Characteristics 32 2.2.2 UAV-Assisted Cellular Network Planning and Provisioning 33 2.2.3 Millimeter Wave Cellular Connected UAVs 34 2.2.4 Deployment of UAV 35 2.2.5 Trajectory Optimization 36 2.2.6 On-Board Energy 37 2.3 Conclusion 37 References 37 3 Battery and Energy Management in UAV-Based Networks 43; Santosh Kumar, Amol Vasudeva and Manu Sood 3.1 Introduction 43 3.2 The Need for Energy Management in UAV-Based Communication Networks 45 3.2.1 Unpredictable Trajectories of UAVs in Cellular UAV Networks 46 3.2.2 Non-Homogeneous Power Consumption 47 3.2.3 High Bandwidth Requirement/Low Spectrum Availability/Spectrum Scarcity 47 3.2.4 Short-Range Line-of-Sight Communication 48 3.2.5 Time Constraint (Time-Limited Spectrum Access) 48 3.2.6 Energy Constraint 49 3.2.7 The Joint Design for the Sensor Nodes’ Wake-Up Schedule and the UAV’s Trajectory (Data Collection) 49 3.3 Efficient Battery and Energy Management Proposed Techniques in Literature 50 3.3.1 Cognitive Radio (CR)-Based UAV Communication to Solve Spectrum Congestion 51 3.3.2 Compressed Sensing 52 3.3.3 Power Allocation and Position Optimization 53 3.3.4 Non-Orthogonal Multiple Access (NOMA) 53 3.3.5 Wireless Charging/Power Transfer (WPT) 54 3.3.6 UAV Trajectory Design Using a Reinforcement Learning Framework in a Decentralized Manner 55 3.3.7 Efficient Deployment and Movement of UAVs 55 3.3.8 3D Position Optimization Mixed With Resource Allocation to Overcome Spectrum Scarcity and Limited Energy Constraint 56 3.3.9 UAV-Enabled WSN: Energy-Efficient Data Collection 57 3.3.10 Trust Management 57 3.3.11 Self-Organization-Based Clustering 58 3.3.12 Bandwidth/Spectrum-Sharing Between UAVs 59 3.3.13 Using Millimeter Wave With SWIPT 59 3.3.14 Energy Harvesting 60 3.4 Conclusion 61 References 67 4 Energy Efficient Communication Methods for Unmanned Ariel Vehicles (UAVs): Last Five Years’ Study 73; Nagesh Kumar 4.1 Introduction 73 4.1.1 Introduction to UAV 74 4.1.2 Communication in UAV 75 4.2 Literature Survey Process 77 4.2.1 Research Questions 77 4.2.2 Information Source 77 4.3 Routing in UAV 78 4.3.1 Communication Methods in UAV 78 4.3.1.1 Single-Hop Communication 79 4.3.1.2 Multi-Hop Communication 80 4.4 Challenges and Issues 82 4.4.1 Energy Consumption 82 4.4.2 Mobility of Devices 82 4.4.3 Density of UAVs 82 4.4.4 Changes in Topology 85 4.4.5 Propagation Models 85 4.4.6 Security in Routing 85 4.5 Conclusion 85 References 86 5 A Review on Challenges and Threats to Unmanned Aerial Vehicles (UAVs) 89; Shaik Johny Basha and Jagan Mohan Reddy Danda 5.1 Introduction 89 5.2 Applications of UAVs and Their Market Opportunity 90 5.2.1 Applications 90 5.2.2 Market Opportunity 92 5.3 Attacks and Solutions to Unmanned Aerial Vehicles (UAVs) 92 5.3.1 Confidentiality Attacks 93 5.3.2 Integrity Attacks 95 5.3.3 Availability Attacks 96 5.3.4 Authenticity Attacks 97 5.4 Research Challenges 99 5.4.1 Security Concerns 99 5.4.2 Safety Concerns 99 5.4.3 Privacy Concerns 100 5.4.4 Scalability Issues 100 5.4.5 Limited Resources 100 5.5 Conclusion 101 References 101 6 Internet of Things and UAV: An Interoperability Perspective 105; Bharti Rana and Yashwant Singh 6.1 Introduction 106 6.2 Background 108 6.2.1 Issues, Controversies, and Problems 109 6.3 Internet of Things (IoT) and UAV 110 6.4 Applications of UAV-Enabled IoT 113 6.5 Research Issues in UAV-Enabled IoT 114 6.6 High-Level UAV-Based IoT Architecture 117 6.6.1 UAV Overview 117 6.6.2 Enabling IoT Scalability 119 6.6.3 Enabling IoT Intelligence 120 6.6.4 Enabling Diverse IoT Applications 121 6.7 Interoperability Issues in UAV-Based IoT 121 6.8 Conclusion 123 References 124 7 Practices of Unmanned Aerial Vehicle (UAV) for Security Intelligence 129; Swarnjeet Kaur, Kulwant Singh and Amanpreet Singh 7.1 Introduction 130 7.2 Military 132 7.3 Attack 133 7.4 Journalism 134 7.5 Search and Rescue 136 7.6 Disaster Relief 138 7.7 Conclusion 139 References 139 8 Blockchain-Based Solutions for Various Security Issues in UAV-Enabled IoT 143; Madhuri S. Wakode and Rajesh B. Ingle 8.1 Introduction 144 8.1.1 Organization of the Work 145 8.2 Introduction to UAV and IoT 145 8.2.1 UAV 145 8.2.2 IoT 146 8.2.3 UAV-Enabled IoT 147 8.2.4 Blockchain 150 8.3 Security and Privacy Issues in UAV-Enabled IoT 151 8.4 Blockchain-Based Solutions to Various Security Issues 153 8.5 Research Directions 154 8.6 Conclusion 154 8.7 Future Work 155 References 155 9 Efficient Energy Management Systems in UAV-Based IoT Networks 159; V. Mounika Reddy, Neelima K. and G. Naresh 9.1 Introduction 160 9.2 Energy Harvesting Methods 161 9.2.1 Basic Energy Harvesting Mechanisms 162 9.2.2 Markov Decision Process-Based Energy Harvesting Mechanisms 163 9.2.3 mm Wave Energy Harvesting Mechanism 164 9.2.4 Full Duplex Wireless Energy Harvesting Mechanism 165 9.3 Energy Recharge Methods 165 9.4 Efficient Energy Utilization Methods 166 9.4.1 GLRM Method 1 … (more)
- Edition:
- 1st
- Publisher Details:
- Hoboken : Wiley-Scrivener
- Publication Date:
- 2021
- Extent:
- 1 online resource
- Subjects:
- 629.1333902854678
Drone aircraft
Drone aircraft -- Industrial applications
Internet of things - Languages:
- English
- ISBNs:
- 9781119769156
- Related ISBNs:
- 9781119768821
- Notes:
- Note: Description based on CIP data; resource not viewed.
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- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
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- British Library HMNTS - ELD.DS.641625
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