Produktbild: Autonomous Vehicles, Volume 2
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Autonomous Vehicles, Volume 2 Smart Vehicles for Communication

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Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

05.01.2023

Herausgeber

Romil Rawat + weitere

Verlag

John Wiley & Sons Inc

Seitenzahl

352

Maße (L/B/H)

15,8/23,8/2,6 cm

Gewicht

744 g

Auflage

1. Auflage

Sprache

Englisch

ISBN

978-1-394-15225-4

Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

05.01.2023

Herausgeber

Verlag

John Wiley & Sons Inc

Seitenzahl

352

Maße (L/B/H)

15,8/23,8/2,6 cm

Gewicht

744 g

Auflage

1. Auflage

Sprache

Englisch

ISBN

978-1-394-15225-4

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Wiley & Sons
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  • Produktbild: Autonomous Vehicles, Volume 2
  • Preface xiii

    1 A Best Fit Strategic Approach for Sample Selections of a Carrier to Minimizing Quantization Error 1
    Virendra P. Nikam and Shital S. Dhande

    1.1 Introduction 1

    1.1.1 Cryptography 2

    1.1.2 Steganography 3

    1.1.3 Watermarking 3

    1.2 Background History 5

    1.3 Literature Survey 6

    1.4 Proposed Methodology 8

    1.4.1 Carrier Selection 8

    1.4.2 Carrier Classification 8

    1.4.3 Searching Best Fit Sample from Class 9

    1.4.4 Updating Result Carrier with Newly Found Best-Fit Sample 10

    1.5 Result Analysis 13

    1.6 Conclusion 15

    1.7 Future Scope 17

    References 17

    2 A Dual-Polarized Antenna With Circular Parasitic Element for Autonomous Vehicle 19
    Manish Varun Yadav and Sudeep Baudha

    2.1 Introduction 19

    2.2 Autonomous-Vehicle Antenna Design and Principle 21

    2.3 Simulated Parameter Study 24

    2.4 Simulated Results 25

    2.5 Conclusion 30

    References 30

    3 A Smart Vehicle Antenna for Defence and Satellite Communication 33
    Manish Varun Yadav, Swati Varun Yadav, Sudeep Baudha and Ashish Chittora

    3.1 Introduction 34

    3.2 Design Principle and Structure 35

    3.3 Stages of Development 37

    3.4 Simulated Parameter Study 38

    3.5 Simulated and Measured Results 40

    3.6 Conclusion 42

    References 44

    4 Visual Place Recognition for Simultaneous Localization and Mapping 47
    Konstantinos A. Tsintotas, Loukas Bampis and Antonios Gasteratos

    4.1 Introduction 47

    4.2 The Structure for a Visual Place Recognition System 49

    4.2.1 Image Processing 50

    4.2.1.1 Global Descriptor Extraction 50

    4.2.1.2 Local Descriptors Extraction 51

    4.2.2 Map 52

    4.2.2.1 Single Image-Based 53

    4.2.2.2 Sequence of Images-Based 54

    4.2.3 Belief Generator 54

    4.2.3.1 Pixel-Wise Similarity 55

    4.2.3.2 Euclidean or Cosine Distance 56

    4.2.3.3 Vote Density 56

    4.2.3.4 Temporal Consistency 57

    4.2.3.5 Geometrical Verification 57

    4.3 Evaluation 58

    4.3.1 Ground Truth 58

    4.3.2 Datasets 59

    4.3.3 Evaluation Metrics 60

    4.4 Paradigms 61

    4.4.1 Sequence of Images-Based Visual Word Histograms 61

    4.4.2 Dynamic Sequence Segmentation 64

    4.4.3 Hierarchical Mapping Through an Incremental Visual Vocabulary 66

    4.4.4 Bag of Tracked Words for Incremental Visual Place Recognition 67

    4.5 Experimental Results 69

    4.6 Future Trends and Conclusion 70

    References 71

    5 Trust Verification Class (TVCRO) Based Communication for Enhanced of QoS in VANET Environment 81
    Akanksha Vyas, Nayan Bhale Amar, Pratiksha Aurangabadkar and Yukti Vyas

    5.1 Introduction 82

    5.2 Related Work 84

    5.3 Theoretical Framework 86

    5.4 TVCRO Procedure 90

    5.5 Simulation Setup 95

    5.6 Results and Discussion 97

    5.7 Conclusion 99

    References 100

    6 Effective Congestion Control Mechanism for Smart Vehicles Using Edge Computing in VANET 105
    Poorva Shukla, Sunita Varma and Ravindra Petel

    6.1 Introduction 106

    6.2 Related Study 109

    6.3 Proposed Algorithm 116

    6.4 Conclusion 118

    Appendix 118

    References 119

    7 Longitudinally Variant 4W4D Robot Slipagge-Based Path Tracking Control 123
    Edgar A. Martínez-García, Roman Lavrenov and Evgeni Magid

    7.1 Introduction 124

    7.2 Related Work 125

    7.3 Vehicle Physical Model 127

    7.4 4W4D Z-Turn Control Law 132

    7.5 Sensing Models 137

    7.6 Path-Tracking Control 139

    7.7 Conclusion 145

    Acknowledgement 146

    References 146

    8 Intelligent Autonomous Electric Car 151
    Vijay L. Hallappanavar, Chetan M. Bulla and Mahantesh N. Birje

    8.1 Introduction 151

    8.2 Related Work 154

    8.3 Intelligent Autonomous System 155

    8.3.1 Object Detection 156

    8.3.1.1 Object Detection Using IR Sensor 157

    8.3.2 Automatic Cooling 158

    8.3.3 Speed Control While Raining 159

    8.3.4 Automatic Charging 160

    8.3.5 Hardware Requirement 162

    8.3.6 Software Requirements 165

    8.4 Results 165

    8.4.1 Object Detection and Tracking 165

    8.4.2 Automatic Cooling 166

    8.4.3 Speed Control While Raining 167

    8.4.4 Automatic Charging 167

    8.5 Conclusions 167

    References 168

    9 Cluster Optimization Using Metaheuristic JAYA Algorithm for Secure VANETs 173
    Gurjot Kaur, Deepti Kakkar and Davinder Singh

    9.1 Introduction 174

    9.1.1 VANET Architecture 176

    9.1.2 VANET Topology 176

    9.1.3 Challenges in VANETs 179

    9.1.4 Security Issues in VANETs 180

    9.1.5 Organization of Chapter 183

    9.2 Literature Review 183

    9.2.1 Available Security Solutions for VANETs 183

    9.2.2 On Trust-Based Security Models 184

    9.2.3 Gaps in Existing Trust Model-Based Security Solutions 187

    9.2.4 On Clustering in VANETs Using Metaheuristic Techniques 188

    9.3 Proposed Work 191

    9.3.1 Overview 191

    9.3.2 Assumptions 191

    9.3.3 Constraints 192

    9.3.4 Proposed Methodology 192

    9.4 Conclusion 200

    References 200

    10 Analysis of Domestic Cars in India for Middle-Income Group Using TOPSIS 207
    Vibha Aggarwal, Kulwant Singh, Sandeep Gupta, Shipra Bansal, Priyanka Baghla and Navjot Kaur

    10.1 Introduction 208

    10.2 Methodology 209

    10.3 Result and Discussion 214

    10.4 Conclusion 214

    References 214

    11 A Secure Data Authentication-Based Aerial Intelligent Relay Road Side Unit (AIR-RSU) Framework for Intelligent Transportation System Applications 217
    A. Samson Arun Raj, M. Roshni Thanka, G. Jaspher Wilisie Kathrine and Yogesh Palanichamy

    11.1 Introduction 218

    11.1.1 The Need for Data Authentication 218

    11.1.2 The Objective of the Proposed Model 219

    11.2 Related Works 219

    11.3 Application Scenario of The Working Model 222

    11.4 Working Process 224

    11.4.1 Network Measurement Subsystem 225

    11.4.2 Data Authentication Subsystem 227

    11.4.3 Service Classification Subsystem 227

    11.5 Experimental Process 230

    11.6 Conclusion and Future Works 234

    References 235

    12 Evaluation of Vulnerabilities in IoT-Based Intelligent Agriculture Systems 237
    Khongdet Phasinam and Thanwamas Kassanuk

    12.1 Introduction 238

    12.1.1 Precision Agriculture 238

    12.1.2 Internet of Things and Machine Learning for Smart Agriculture and Related Security Concerns 238

    12.2 Building Blocks of Internet of Things 241

    12.2.1 Sensors 242

    12.2.2 Control Unit 244

    12.2.3 Communication Module 245

    12.3 Literature Survey 247

    12.4 Security Issues 249

    12.4.1 Heterogeneous Devices and Communication 250

    12.4.2 Integrating Physical Devices 250

    12.4.3 Constrained Devices 250

    12.4.4 Large Scale 250

    12.4.5 Privacy 250

    12.5 Attacks and Vulnerabilities in Internet of Things Related to Agriculture Field 251

    12.6 Conclusion 254

    References 255

    13 Q Learning Algorithm for Network Resource Management in Vehicular Communication Network 259
    Vartika Agarwal and Sachin Sharma

    13.1 Introduction 259

    13.2 Literature Review 261

    13.3 Overview of Network Resource Management in Vehicular Communication Networks 263

    13.4 Reinforcement Learning Techniques for Network Resource Management 264

    13.5 Applications of Q Learning 266

    13.6 Comparative Study and Result Analysis 268

    13.7 Impact of Q-Learning 271

    13.8 Conclusion 271

    References 272

    14 Reliable Transportation Solution for Urban Planning: VANET 275
    Harshit Srivastava and Deepti Kakkar

    14.1 Introduction 276

    14.1.1 VANET Architecture 276

    14.1.2 VANET Characteristics 278

    14.1.3 VANET Standards 278

    14.1.4 VANET Communication 279

    14.1.5 Implementation of Optimisation Algorithm for VANETs 279

    14.2 Cryptography 282

    14.2.1 Salient Features of Cryptography 282

    14.2.2 Classification of Cryptography (as shown in Figure 14.2) 283

    14.3 Common Security Attacks 283

    14.4 Gaps in Present Cryptography 284

    14.5 Lightweight Cryptography 285

    14.5.1 Vital Security Aspects in Lightweight Cryptography 286

    14.5.2 Advantages of Lightweight Protocols 287

    14.5.3 Objectives of Lightweight Protocols are Classified as 288

    14.5.4 Lightweight Cryptography Algorithms 289

    14.5.5 Software and Hardware Implementation 290

    14.5.5.1 Hardware Lightweight Cryptography 290

    14.5.5.2 Software Lightweight Cryptography 291

    14.5.6 Division of Lightweight Cryptography 291

    14.5.6.1 Symmetric Key Algorithm 292

    14.5.6.2 Asymmetric Key 297

    14.6 Conclusion 299

    14.7 Future Work 300

    References 300

    15 Implementation of Veco-Taxis in Turbulent Environment for Gas Source Localization 303
    Kumar Gaurav

    15.1 Introduction 303

    15.2 Literature Survey 304

    15.3 Methodology 307

    15.4 Results and Discussions 310

    15.5 Conclusions 314

    References 315

    16 A Technique for Monitoring Cyber-Attacks on Self-Driving Automobiles-Based VANET 317
    Vinod Mahor, Sadhna Bijrothiya, Rina Mishra and Romil Rawat

    16.1 Introduction 318

    16.2 Related Work 319

    16.3 Examining the Proposed Framework 320

    16.4 Conclusion 331

    References 331

    About the Editors 335

    Index 337