图书简介
Provides technical and scientific descriptions of potential approaches used to achieve indoor positioning, ranging from sensor networks to more advanced radio-based systems This book presents a large technical overview of various approaches to achieve indoor positioning. These approaches cover those based on sensors, cameras, satellites, and other radio-based methods. The book also discusses the simplification of certain implementations, describing ways for the reader to design solutions that respect specifications and follow established techniques. Descriptions of the main techniques used for positioning, including angle measurement, distance measurements, Doppler measurements, and inertial measurements are also given. Indoor Positioning: Technologies and Performance starts with overviews of the first age of navigation, the link between time and space, the radio age, the first terrestrial positioning systems, and the era of artificial satellites. It then introduces readers to the subject of indoor positioning, as well as positioning techniques and their associated difficulties. Proximity technologies like bar codes, image recognition, Near Field Communication (NFC), and QR codes are covered-as are room restricted and building range technologies. The book examines wide area indoor positioning as well as world wide indoor technologies like High-Sensitivity and Assisted GNSS, and covers maps and mapping. It closes with the author’s vision of the future in which the practice of indoor positioning is perfected across all technologies. This text: Explores aspects of indoor positioning from both theoretical and practical points of view Describes advantages and drawbacks of various approaches to positioning Provides examples of design solutions that respect specifications of tested techniques Covers infra-red sensors, lasers, Lidar, RFID, UWB, Bluetooth, Image SLAM, LiFi, WiFi, indoor GNSS, and more Indoor Positioning is an ideal guide for technical engineers, industrial and application developers, and students studying wireless communications and signal processing.
Preface xi Acknowledgments xiii Introduction xv 1 A Little Piece of History... 1 1.1 The First Age of Navigation 1 1.2 Longitude Problem and Importance of Time 2 1.3 Link Between Time and Space 4 1.3.1 A Brief History of the Evolution of the Perception of Time 4 1.3.2 Comparison with the Possible Change in Our Perception of Space 6 1.4 The Radio Age 8 1.5 First Terrestrial Positioning Systems 9 1.6 The Era of Artificial Satellites 11 1.6.1 GPS System 13 1.7 New Problem: Availability and Accuracy of Positioning Systems 14 Bibliography 15 2 What Exactly Is the Indoor Positioning Problem? 17 2.1 General Introduction to Indoor Positioning 18 2.1.1 Basic Problem: Example of the Navigation Application 19 2.1.2 The \"Perceived\" Needs 20 2.1.3 Wide Range of Possible Technologies 22 2.1.4 Comments on the \"Best\" Solution 25 2.1.4.1 Local or Global Coverage 26 2.1.4.2 With orWithout Local Infrastructure 27 2.2 Is Indoor Positioning the Next \"Longitude Problem\"? 27 2.3 Quick Summary of the Indoor Problem 30 Bibliography 31 3 General Introduction to Positioning Techniques and Their Associated Difficulties 33 3.1 Angle-Based Positioning Technique 33 3.1.1 Pure Angle-Based Positioning Technique 33 3.1.2 Triangulation-Based Positioning Technique 34 3.2 Distance-Based Positioning Technique 35 3.2.1 Distances to Known Environment-Based Positioning Technique 35 3.2.2 Radar Method 36 3.2.3 Hyperbolic Method 38 3.2.4 Mobile Telecommunication Networks 38 3.3 Doppler-Based Positioning Approach 40 3.3.1 Doppler Radar Method 40 3.3.2 Doppler Positioning Approach 41 3.4 Physical Quantity-Based Positioning Approaches 42 3.4.1 Luminosity Measurements 42 3.4.2 Local Networks 42 3.4.3 Attitude and Heading Reference System 45 3.4.3.1 Accelerometers 46 3.4.3.2 Gyrometers 47 3.4.3.3 Odometers 47 3.4.3.4 Magnetometers 48 3.5 Image-Based Positioning Approach 49 3.6 ILS, MLS, VOR, and DME 49 3.7 Summary 51 Bibliography 52 4 Various Possible Classifications of Indoor Technologies 55 4.1 Introduction 55 4.2 Parameters to Be Considered 56 4.3 Discussion About These Parameters 57 4.3.1 Parameters Related to the Hardware of the System 57 4.3.2 Parameters Related to the Type and Performances of the System 58 4.3.3 Parameters Related to the Real Implementation of the System 59 4.3.4 Parameters Related to the Physical Aspects of the System 60 4.4 Technologies Considered 63 4.5 Complete Tables 71 4.6 Playing with the Complete Table 79 4.7 Selected Approach for the Rest of the Book 88 Bibliography 99 5 Proximity Technologies: Approaches, Performance, and Limitations 103 5.1 Bar Codes 103 5.2 Contactless Cards and Credit Cards 107 5.3 Image Recognition 109 5.4 Near-Field Communication - NFC 112 5.5 QR Codes 114 5.6 Discussion of Other Technologies 117 Bibliography 118 6 Room-Restricted Technologies: Challenges and Reliability 121 6.1 Image Markers 121 6.2 Infrared Sensors 129 6.3 Laser 130 6.4 Lidar 133 6.5 Sonar 136 6.6 Ultrasound Sensors 138 Bibliography 140 7 \"Set of Rooms\" Technologies 145 7.1 Radar 145 7.2 RFID 149 7.3 UWB 152 Bibliography 156 8 Building Range Technologies 159 8.1 Accelerometer 159 8.2 Bluetooth and Bluetooth Low Energy 163 8.3 Gyrometer 167 8.4 Image-Relative Displacement 169 8.5 Image SLAM 171 8.6 LiFi 171 8.7 Light Opportunity 174 8.8 Sound 176 8.9 Theodolite 177 8.10 WiFi 180 8.11 Symbolic WiFi 182 Bibliography 187 9 Building Range Technologies: The Specific Case of Indoor GNSS 191 9.1 Introduction 191 9.2 Concept of Local Transmitters 193 9.3 Pseudolites 194 9.4 Repeaters 198 9.4.1 Clock Bias Approach 199 9.4.2 Pseudo Ranges Approach 202 9.4.2.1 Theoretical Aspects 202 9.5 Repealites 206 9.5.1 Proposed System Architecture 206 9.5.2 Advantages 208 9.5.3 Limitations 209 9.6 Grin-Locs 209 9.6.1 Double Antenna 210 9.6.1.1 Angle Approach 210 9.6.1.2 Quadrics Approach 211 9.6.2 Resolution in Case of Several Double Antennas 213 9.6.2.1 Positioning with the Angle Approach 213 9.6.2.2 Positioning with the Quadric Approach 214 Bibliography 216 10 Wide Area Indoor Positioning: Block, City, and County Approaches 223 10.1 Introduction 223 10.2 Amateur Radio 225 10.3 ISM Radio Bands (433/868/...MHz) 226 10.4 Mobile Networks 227 10.4.1 First Networks (GSM) 227 10.4.2 Modern Networks (3G, 4G, and 5G) 232 10.5 LoRa and SigFox 234 10.6 AM/FM Radio 236 10.7 TV 237 Bibliography 239 11 Worldwide Indoor Positioning Technologies: Achievable Performance 241 11.1 Argos and COSPAS-SARSAT Systems 241 11.1.1 Argos System 241 11.1.2 COSPAS-SARSAT System 244 11.2 GNSS 246 11.3 High-Accuracy GNSS 248 11.3.1 HS-GNSS 249 11.3.2 A-GNSS 251 11.4 Magnetometer 253 11.5 Pressure Sensor 256 11.6 Radio Signals of Opportunity 258 11.7 Wired Networks 259 Bibliography 261 12 Combining Techniques and Technologies 267 12.1 Introduction 267 12.2 Fusion and Hybridization 269 12.2.1 Strategies for Combining Technologies 269 12.2.2 Strategies for Choosing the Optimal Data 270 12.2.2.1 Least Squares Method 273 12.2.3 Classification and Estimators 274 12.2.4 Filtering 275 12.3 Collaborative Approaches 276 12.3.1 Approach Using DopplerMeasurements to Estimate Velocities 276 12.3.2 Approach Using DopplerMeasurements in Case Some Nodes Are Fixed 280 12.3.3 Approach Using DopplerMeasurements to Estimate Angles 282 12.3.4 Approach Using Distance Measurements 285 12.3.5 Approach Analyzing the Deformation of the Network 287 12.3.6 Comments 288 12.4 General Discussion 290 Bibliography 291 13 Maps 295 13.1 Map: Not Just an Image 296 13.2 Indoor Poses Specific Problems 297 13.3 Map Representations 298 13.4 Recording Tools 301 13.5 Some Examples of the Use of Indoor Mapping 304 13.5.1 Some Guiding Applications 305 13.5.2 Some Services Associated with Mapping 306 13.6 Synthesis 308 Bibliography 308 14 Synthesis and Possible Forthcoming \"Evolution\" 311 14.1 Indoor Positioning: Signals of Opportunity or Local Infrastructure? 312 14.1.1 A Few Constrained Selections 312 14.1.2 Comparison of Three Approaches and Discussion 315 14.1.2.1 Inverted GNSS Radar 315 14.1.2.2 NFC-Distributed System and Its Map 316 14.1.2.3 Cooperative Approach Between Communicating Terminals 317 14.2 Discussion 319 14.3 Possible Evolution of Everybody’s Daily Life 321 14.3.1 Student’s Day 321 14.3.1.1 Morning Session at the University 322 14.3.2 Improving an Outpatient’s Visit to Hospital 323 14.3.2.1 Preparation of the \"Journeys\" 323 14.3.2.2 Displacements of Patients and Automatic Rescheduling 323 14.3.2.3 Reports - Analytics 323 14.3.3 Flow of People in Public Places 325 14.4 Internet of Things and Internet of Everything 326 14.5 Possible Future Approaches 327 14.6 Conclusion 330 Bibliography 331 Index 333
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