Indoor positioning : technologies and performance /: technologies and performance. (2019)
- Record Type:
- Book
- Title:
- Indoor positioning : technologies and performance /: technologies and performance. (2019)
- Main Title:
- Indoor positioning : technologies and performance
- Further Information:
- Note: Nel Samama.
- Authors:
- Samama, Nel, 1963-
- Contents:
- Preface Acknowledgements Introduction An attempt to clarify the problem Comments for a deployment in real conditions Conclusion Chapter 1 - A little piece of history … 1.1 - The first age of navigation 1.2 - The longitude problem and the importance of time 1.3 - The link between time and space 1.3.1 – A brief history of the evolution of the perception of time 1.3.2 – Comparison with the possible change in our perception of space 1.4 – The radio age 1.5 - The first terrestrial positioning systems 1.6 - The era of artificial satellites 1.7 – The new problem: availability and accuracy of positioning systems 1.8 – References Chapter 2 - What is exactly the indoor positioning problem? 2.1 – General introduction to indoor positioning 2.1.1 – The basic problem: example of the navigation application 2.1.2 – The “perceived” needs 2.1.3 – The wide range of possible technologies 2.1.4 – Comments on the “best” solution 2.2 – Is indoor positioning the next “longitude problem”? 2.3 – A quick summary of the indoor problem 2.4 - References Chapter 3 - A general introduction to positioning techniques, and their associated difficulties 3.1 – Angle based positioning technique 3.1.1 – Pure Angle based positioning technique 3.1.2 – Triangulation based positioning technique 3.2 – Distance based positioning technique 3.2.1 – Distances to known environment based positioning technique 3.2.2 – The Radar method 3.2.3 - The hyperbolic method 3.2.4 - Mobile telecommunication networks 3.3 – Doppler basedPreface Acknowledgements Introduction An attempt to clarify the problem Comments for a deployment in real conditions Conclusion Chapter 1 - A little piece of history … 1.1 - The first age of navigation 1.2 - The longitude problem and the importance of time 1.3 - The link between time and space 1.3.1 – A brief history of the evolution of the perception of time 1.3.2 – Comparison with the possible change in our perception of space 1.4 – The radio age 1.5 - The first terrestrial positioning systems 1.6 - The era of artificial satellites 1.7 – The new problem: availability and accuracy of positioning systems 1.8 – References Chapter 2 - What is exactly the indoor positioning problem? 2.1 – General introduction to indoor positioning 2.1.1 – The basic problem: example of the navigation application 2.1.2 – The “perceived” needs 2.1.3 – The wide range of possible technologies 2.1.4 – Comments on the “best” solution 2.2 – Is indoor positioning the next “longitude problem”? 2.3 – A quick summary of the indoor problem 2.4 - References Chapter 3 - A general introduction to positioning techniques, and their associated difficulties 3.1 – Angle based positioning technique 3.1.1 – Pure Angle based positioning technique 3.1.2 – Triangulation based positioning technique 3.2 – Distance based positioning technique 3.2.1 – Distances to known environment based positioning technique 3.2.2 – The Radar method 3.2.3 - The hyperbolic method 3.2.4 - Mobile telecommunication networks 3.3 – Doppler based positioning approach 3.3.1 – The Doppler Radar method 3.3.2 – The Doppler positioning approach 3.4 – Physical quantity based positioning approaches 3.4.1 – Luminosity measurements 3.4.2 – Local networks 3.4.3 – Attitude and heading reference system 3.4.3.1 - Accelerometers 3.4.3.2 – Gyro meters 3.4.3.3 – Odometers 3.4.3.4 – Magnetometers 3.5 – Image based positioning approach 3.6 - ILS, MLS, VOR, DME 3.7 - Summary 3.8 - References Chapter 4 - Various possible classifications of indoor technologies 4.1 – The parameters to consider 4.2 – Discussion about these parameters 4.2.1 - Parameters related to the hardware of the system 4.2.2 - Parameters related to the type and performances of the system 4.2.3 - Parameters related to the real implementation of the system 4.2.4 - Parameters related to the physical aspects of the system 4.3 – The technologies considered 4.4 – The complete tables 4.5 – Playing with the complete table 4.6 – The selected approach for the rest of the book 4.7 - References Chapter 5 - Proximity technologies: approaches, performance and limitations 5.1 – The Bar Codes 5.2 – Contactless cards and credit cards 5.3 – Image recognition 5.4 – Near Field Communication - NFC 5.5 – The QR Codes 5.6 – Discussion of other technologies 5.7 - References Chapter 6 - Room restricted technologies: challenges and reliability 6.1 – Image markers 6.2 – Infra-red sensors 6.3 – Laser 6.4 – Lidar 6.5 – Sonar 6.6 – Ultra sound sensors 6.7 - References Chapter 7 – “Set of rooms” technologies 7.1 – The radar 7.2 – The RFID 7.3 – The UWB 7.4 - References Chapter 8 - Building range technologies 8.1 – Accelerometer 8.2 – Bluetooth and Bluetooth Low Energy 8.3 – Gyro meter 8.4 – Image relative displacement 8.5 – Image SLAM 8.6 – LiFi 8.7 – Light opportunity 8.8 – Sound 8.9 – Theodolite 8.10 – WiFi 8.11 – Symbolic WiFi 8.12 - References Chapter 9 - Building range technologies: the specific case of Indoor GNSS 9.1 – Introduction 9.2 - The concept of local transmitters 9.3 - Pseudolites 9.4 - Repeaters 9.4.1 - The clock bias approach 9.4.2 - The pseudo ranges approach 9.5 - The repealites 9.5.1 - The proposed system architecture 9.5.2 - The advantages 9.5.3 - The limitations 9.6 - The Grin-Locs 9.6.1 - The Double Antenna 9.6.2 - Resolution in Case of a Plurality of Double Antennas 9.7 – References Chapter 10 - Wide area indoor positioning: block, city and county approaches 10.1 – Introduction 10.2 – Amateur radio 10.3 – The ISM radio bands (433/868/… MHz) 10.4 – The mobile networks 10.4.1 - The first networks (GSM) 10.4.2 - The modern networks (3G, 4G and 5G) 10.5 – The LoRa and SigFox 10.6 – The AM/FM radio 10.7 – The TV 10.8 - References Chapter 11 - World Wide indoor positioning technologies: achievable performance 11.1 – The Argos and Cospas-Sarsat systems 11.1.1 – The Argos system 11.1.2 – The COSPAS-SARSAT system 11.2 – The GNSS 11.3 – High accuracy GNSS 11.3.1 – HS-GNSS 11.3.2 – A-GNSS 11.4 – The magnetometer 11.5 – Pressure sensor 11.6 – The radio signals of opportunity 11.7 – Wired networks 11.8 - References Chapter 12 - Combining techniques and technologies 12.1 – Introduction 12.2 – Fusion and hybridization 12.2.1 - Strategies for combining technologies 12.2.2 - Strategies for choosing the optimal data 12.2.3 - Classification and estimators 12.2.4 - Filtering 12.3 – Collaborative approaches 12.3.1 - Approach using Doppler measurements to estimate velocities 12.3.2 - Approach using Doppler measurements in case some nodes are fixed 12.3.3 - Approach using Doppler measurements to estimate angles 12.3.4 - Approach using distance measurements 12.3.5 - Approach analyzing the deformation of the network 12.3.6 - Comments 12.4 – General discussion 12.5 - References Chapter 13 - Maps 13.1 – A map: not just an image 13.2 – Indoor poses specific problems 13.3 – Map representations 13.4 – Input tools 13.5 – Some examples of the use of interior mapping 13.5.1 - Some guiding applications 13.5.2 - Some services associated with mapping 13.6 – Synthesis 13.7 - References Chapter 14 - Synthesis and possible forthcoming “evolution” 14.1 – Indoor positioning: signals of opportunity or local infrastructure? 14.1.1 - A few constrained selections 14.1.2 - Comparison of three approaches and discussion 14.2 - Discussion 14.3 – The possible evolution of everybody’s daily life 14.3.1 – A student’s day 14.3.2 – Improving an out-patient’s visit to hospital 14.3.3 – The flow of people in public places 14.4 – Internet of Things and Internet of Everything 14.5 – Possible future approaches 14.6 – Conclusion 14.7 – References … (more)
- Edition:
- 1st
- Publisher Details:
- Hoboken : Wiley-IEEE Press
- Publication Date:
- 2019
- Extent:
- 1 online resource
- Subjects:
- 006.2
Indoor positioning systems (Wireless localization) - Languages:
- English
- ISBNs:
- 9781119421863
- Related ISBNs:
- 9781119421856
- Notes:
- Note: Includes bibliographical references and index.
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