Verfügbarkeit: Principles of GNSS, inertial, and multisensor integrated navigation systems

Principles of GNSS, inertial, and multisensor integrated navigation systems:

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Bibliographische Detailangaben
1. Verfasser:	Groves, Paul D. (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Boston ARTECH HOUSE [2013]
Ausgabe:	Second edition
Schriftenreihe:	GNSS technology and applications series
Schlagworte:	TECHNOLOGY & ENGINEERING / Engineering (General) Artificial satellites in navigation Global Positioning System Inertial navigation systems Navigation / Technological innovations Global Positioning System > Artificial satellites in navigation > Inertial navigation systems > Navigation > Technological innovations Navigation Navigationssystem GNSS-2
Online-Zugang:	DE-1046 DE-1047 DE-29 Inhaltsverzeichnis
Beschreibung:	1 Online-Ressource
ISBN:	9781523117529 9781608070060 1608070069 1608070050

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Datensatz im Suchindex

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adam_text	Contents Preface xvii Acknowledgments xix CHAPTER 1 I Introduction 1 1 1 Fundamental Concepts 1 1 2 Dead Reckoning 5 1 3 Position Fixing 7 131 Position-Fixing Methods 7 132 Signal-Based Positioning 12 133 Environmental Feature Matching 14 1 4 The Navigation System 15 141 Requirements 16 142 Context 17 143 Integration 18 144 Aiding 18 145 Assistance and Cooperation 19 146 Fault Detection 20 1 5 Overview of the Book 20 References 22 CHAPTER 2 Coordinate Frames, Kinematics, and the Earth 23 2 1 Coordinate Frames 23 211 Earth-Centered Inertial Frame 25 212 Earth-Centered Earth-Fixed Frame 26 213 Local Navigation Frame 27 214 Local Tangent-Plane Frame 28 215 Body Frame 28 216 Other Frames 29 2 2 Attitude, Rotation, and Resolving Axes Transformations 30 221 Euler Attitude 33 222 Coordinate Transformation Matrix 35 223 Quaternion Attitude 40 224 Rotation Vector 42 2 3 Kinematics 43 v VI Contents 231 Angular Rate 44 232 Cartesian Position 46 233 Velocity 48 234 Acceleration 50 235 Motion with Respect to a Rotating Reference Frame 51 2 4 Earth Surface and Gravity Models 53 241 The Ellipsoid Model of the Earth’s Surface 54 242 Curvilinear Position 57 243 Position Conversion 61 244 The Geoid, Orthometric Height, and Earth Tides 64 245 Projected Coordinates 65 246 Earth Rotation 66 247 Specific Force, Gravitation, and Gravity 67 2 5 Frame Transformations 72 251 Inertial and Earth Frames 73 252 Earth and Local Navigation Frames 74 253 Inertial and Local Navigation Frames 75 254 Earth and Local Tangent-Plane Frames 76 255 Transposition of Navigation Solutions 77 References 78 CHAPTER 3 Kalman Filter-Based Estimation 81 3 1 Introduction 82 311 Elements of the Kalman Filter 82 312 Steps of the Kalman Filter 84 313 Kalman Filter Applications 86 3 2 Algorithms and Models 87 321 Definitions 87 322 Kalman Filter Algorithm 91 323 System Model 96 324 Measurement Model 100 325 Kalman Filter Behavior and State Observability 103 326 Closed-Loop Kalman Filter 106 327 Sequential Measurement Update 107 3 3 Implementation Issues 109 331 Tuning and Stability 109 332 Algorithm Design 111 333 Numerical Issues 113 334 Time Synchronization 114 335 Kalman Filter Design Process 117 3 4 Extensions to the Kalman Filter 117 341 Extended and Linearized Kalman Filter 118 342 Unscented Kalman Filter 121 343 Time-Correlated Noise 123 344 Adaptive Kalman Filter 124 345 Multiple-Hypothesis Filtering 125 346 Kalman Smoothing 129 3 5 The Particle Filter 131 References 135 CHAPTER 4 Inertial Sensors 137 4 1 Accelerometers 139 411 Pendulous Accelerometers 140 412 Vibrating-Beam Accelerometers 142 4 2 Gyroscopes 142 421 Optical Gyroscopes 143 422 Vibratory Gyroscopes 146 4 3 Inertial Measurement Units 149 4 4 Error Characteristics 151 441 Biases 152 442 Scale Factor and Cross-Coupling Errors 154 443 Random Noise 155 444 Further Error Sources 157 445 Vibration-Induced Errors 159 446 Error Models 160 References 161 CHAPTER 5 Inertial Navigation 163 5 1 Introduction to Inertial Navigation 164 5 2 Inertial-Frame Navigation Equations 168 521 Attitude Update 168 522 Specific-Force Frame Transformation 170 523 Velocity Update 171 524 Position Update 172 5 3 Earth-Frame Navigation Equations 172 531 Attitude Update 173 532 Specific-Force Frame Transformation 174 533 Velocity Update 174 534 Position Update 175 5 4 Local-Navigation-Frame Navigation Equations 176 541 Attitude Update 176 542 Specific-Force Frame Transformation 178 543 Velocity Update 179 544 Position Update 179 545 Wander-Azimuth Implementation 180 5 5 Navigation Equations Optimization 183 551 Precision Attitude Update 183 552 Precision Specific-Force Frame Transformation 187 553 Precision Velocity and Position Updates 188 viii Contents 554 Effects of Sensor Sampling Interval and Vibration 189 555 Design Tradeoffs 195 5 6 Initialization and Alignment 195 561 Position and Velocity Initialization 196 562 Attitude Initialization 196 563 Fine Alignment 200 5 7 INS Error Propagation 203 571 Short-Term Straight-Line Error Propagation 204 572 Medium- and Long-Term Error Propagation 209 573 Maneuver-Dependent Errors 212 5 8 Indexed IMU 214 5 9 Partial IMU 215 References 216 CHAPTER 6 Dead Reckoning, Attitude, and Height Measurement 217 6 1 Attitude Measurement 217 611 Magnetic Heading 218 612 Marine Gyrocompass 222 613 Strapdown Yaw-Axis Gyro 223 614 Heading from Trajectory 225 615 Integrated Heading Determination 226 616 Accelerometer Leveling and Tilt Sensors 226 617 Horizon Sensing 227 618 Attitude and Heading Reference System 228 6 2 Height and Depth Measurement 229 621 Barometric Altimeter 230 622 Depth Pressure Sensor 231 623 Radar Altimeter 232 6 3 Odometry 233 631 Linear Odometry 234 632 Differential Odometry 238 633 Integrated Odometry and Partial IMU 239 6 4 Pedestrian Dead Reckoning Using Step Detection 240 6 5 Doppler Radar and Sonar 245 6 6 Other Dead-Reckoning Techniques 249 661 Correlation-Based Velocity Measurement 249 662 Air Data 249 663 Ship’s Speed Log 250 References 250 CHAPTER 7 Principles of Radio Positioning 255 7 1 Radio Positioning Configurations and Methods 255 711 Self-Positioning and Remote Positioning 255 712 Relative Positioning 257 713 Proximity 258 714 Ranging 260 715 Angular Positioning 269 716 Pattern Matching 271 717 Doppler Positioning 274 Positioning Signals 276 721 Modulation Types 276 722 Radio Spectrum 277 User Equipment 279 731 Architecture 279 732 Signal Timing Measurement 280 733 Position Determination from Ranging 282 Propagation, Error Sources, and Positioning Accuracy 287 741 Ionosphere, Troposphere, and Surface Propagation Effects 287 742 Attenuation, Reflection, Multipath, and Diffraction 288 743 Resolution, Noise, and Tracking Errors 290 744 Transmitter Location and Timing Errors 292 745 Effect of Signal Geometry 292 References 297 CHAPTER 8 GNSS: Fundamentals, Signals, and Satellites 299 8 1 Fundamentals of Satellite Navigation 300 811 GNSS Architecture 300 812 Signals and Range Measurement 303 813 Positioning 307 814 Error Sources and Performance Limitations 309 8 2 The Systems 312 821 Global Positioning System 312 822 GLONASS 313 823 Galileo 313 824 Beidou 314 825 Regional Systems 314 826 Augmentation Systems 314 827 System Compatibility 316 8 3 GNSS Signals 317 831 Signal Types 318 832 Global Positioning System 320 833 GLONASS 323 834 Galileo 324 835 Beidou 326 836 Regional Systems 326 837 Augmentation Systems 327 8 4 Navigation Data Messages 327 841 GPS 327 842 GLONASS 328 X Contents 843 Galileo 329 844 SBAS 329 845 Time Base Synchronization 329 8 5 Satellite Orbits and Geometry 330 851 Satellite Orbits 330 852 Satellite Position and Velocity 332 853 Range, Range Rate, and Line of Sight 339 854 Elevation and Azimuth 344 References 345 CHAPTER 9 GNSS: User Equipment Processing and Errors 349 9 1 Receiver Hardware and Antenna 350 911 Antennas 350 912 Reference Oscillator 351 913 Receiver Front End 352 914 Baseband Signal Processor 355 9 2 Ranging Processor 367 921 Acquisition 367 922 Code Tracking 372 923 Carrier Tracking 377 924 Tracking Lock Detection 384 925 Navigation-Message Demodulation 385 926 Carrier-Power-to-Noise-Density Measurement 386 927 Pseudo-Range, Pseudo-Range-Rate, and Carrier-Phase Measurements 387 9 3 Range Error Sources 389 931 Ephemeris Prediction and Satellite Clock Errors 390 932 Ionosphere and Troposphere Propagation Errors 391 933 Tracking Errors 395 934 Multipath, Nonline-of-Sight, and Diffraction 401 9 4 Navigation Processor 407 941 Single-Epoch Navigation Solution 409 942 Filtered Navigation Solution 413 943 Signal Geometry and Navigation Solution Accuracy 424 944 Position Error Budget 429 References 431 CHAPTER 10 GNSS: Advanced Techniques 437 10 1 Differential GNSS 437 10 1 1 Spatial and Temporal Correlation of GNSS Errors 438 10 1 2 Local and Regional Area DGNSS 439 10 1 3 Wide Area DGNSS and Precise Point Positioning 440 10 1 4 Relative GNSS 441 Jf' k- 10 2 Real-Time Kinematic Carrier-Phase Positioning fr and Attitude Determination 442 10 2 1 Principles of Accumulated Delta Range Positioning 443 10 2 2 Single-Epoch Navigation Solution Using Double- 1 Differenced ADR 446 1 10 2 3 Geometry-Based Integer Ambiguity Resolution 447 1 10 2 4 Multifrequency Integer Ambiguity Resolution 449 10 2 5 GNSS Attitude Determination 450 1 10 3 Interference Rejection and Weak Signal Processing 451 '/■ 10 3 1 Sources of Interference, Jamming, and Attenuation 452 10 3 2 Antenna Systems 452 10 3 3 Receiver Front-End Filtering 453 10 3 4 Extended Range Tracking 454 i 10 3 5 Receiver Sensitivity 455 § 10 3 6 Combined Acquisition and Tracking 456 i 10 3 7 Vector Tracking 456 t 10 4 Mitigation of Multipath Interference and i Nonline-of-Sight Reception 458 10 4 1 Antenna-Based Techniques 459 f' 10 4 2 Receiver-Based Techniques 460 tf 10 4 3 Navigation-Processor-Based Techniques 461 1 10 5 Aiding, Assistance, and Orbit Prediction 462 10 5 1 Acquisition and Velocity Aiding 463 1 10 5 2 Assisted GNSS 464 i 10 5 3 Orbit Prediction 465 10 6 Shadow Matching 465 '$/ References 467 f CHAPTER 11 5; Long- and Medium-Range Radio Navigation 473 \| 11 1 Aircraft Navigation Systems 473 11 1 1 Distance Measuring Equipment 474 t 11 1 2 Range-Bearing Systems 479 11 1 3 Nondirectional Beacons 480 \| ■ 11 1 4 JTIDS/MIDS Relative Navigation 481 1 11 1 5 Future Air Navigation Systems 481 I' 11 2 Enhanced Loran 481 11 2 1 Signals 482 11 2 2 User Equipment and Positioning 484 11 2 3 Error Sources 487 11 2 4 Differential Loran 488 11 3 Phone Positioning 488 11 3 1 Proximity and Pattern Matching 489 11 3 2 Ranging 490 11 4 Other Systems 491 11 4 1 Iridium Positioning 491 xii Contents 11 4 2 Marine Radio Beacons 492 11 4 3 AM Radio Broadcasts 492 11 4 4 FM Radio Broadcasts 493 11 4 5 Digital Television and Radio 493 11 4 6 Generic Radio Positioning 494 References 495 CHAPTER 12 Short-Range Positioning 499 12 1 Pseudolites 499 12 1 1 In-Band Pseudolites 500 12 1 2 Locata and Terralite XPS 500 12 1 3 Indoor Messaging System 501 12 2 Ultrawideband 501 12 2 1 Modulation Schemes 502 12 2 2 Signal Timing 503 12 2 3 Positioning 504 12 3 Short-Range Communications Systems 506 12 3 1 Wireless Local Area Networks (Wi-Fi) 506 12 3 2 Wireless Personal Area Networks 507 12 3 3 Radio Frequency Identification 508 12 3 4 Bluetooth Low Energy 508 12 3 5 Dedicated Short-Range Communication 509 12 4 Underwater Acoustic Positioning 509 12 5 Other Positioning Technologies 512 12 5 1 Radio 512 12 5 2 Ultrasound 512 12 5 3 Infrared 512 12 5 4 Optical 513 12 5 5 Magnetic 513 References 513 CHAPTER 1 t Environmental Feature Matching 517 13 1 Map Matching 519 13 1 1 Digital Road Maps 520 13 1 2 Road Link Identification 521 13 1 3 Road Positioning 526 13 1 4 Rail Map Matching 527 13 1 5 Pedestrian Map Matching 528 13 2 Terrain-Referenced Navigation 530 13 2 1 Sequential Processing 531 13 2 2 Batch Processing 532 13 2 3 Performance 535 13 2 4 Laser TRN 535 1 13 2 5 Sonar TRN 536 13 2 6 Barometric TRN 537 ■?' 13 2 7 Terrain Database Height Aiding 537 :s- 13 3 Image-Based Navigation 538 13 3 1 Imaging Sensors 539 % \| 13 3 2 Image Feature Comparison 541 1 13 3 3 Position Fixing Using Individual Features 543 \|; 13 3 4 Position Fixing by Whole-Image Matching 546 1 13 3 5 Visual Odometry 546 \| 13 3 6 Feature Tracking 548 \|; 13 3 7 Stellar Navigation 548 ‘f 13 4 Other Feature-Matching Techniques 550 ?■: 13 4 1 Gravity Gradiometry 551 13 4 2 Magnetic Field Variation 552 13 4 3 Celestial X-Ray Sources 552 t: i References 552 ■ CHAPTER 14 § INS/GNSS Integration 559 f 14 1 Integration Architectures 560 14 1 1 Correction of the Inertial Navigation Solution 562 1 14 1 2 Loosely Coupled Integration 566 1 14 1 3 Tightly Coupled Integration 567 1 14 1 4 GNSS Aiding 569 14 1 5 Deeply Coupled Integration 571 1 14 2 System Model and State Selection 573 1 14 2 1 State Selection and Observability 574 f 14 2 2 INS State Propagation in an Inertial Frame 577 ft 14 2 3 INS State Propagation in an Earth Frame 582 d‘y 14 2 4 INS State Propagation Resolved in a Local 4:: Navigation Frame 584 t 14 2 5 Additional IMU Error States 589 f 14 2 6 INS System Noise 590 14 2 7 GNSS State Propagation and System Noise 593 ‘I; 14 2 8 State Initialization 594 i 14 3 Measurement Models 596 i: 14 3 1 Loosely Coupled Integration 598 1 14 3 2 Tightly Coupled Integration 602 14 3 3 Deeply Coupled Integration 606 14 3 4 Estimation of Attitude and Instrument Errors 614 /t 14 4 Advanced INS/GNSS Integration 615 ■ 14 4 1 Differential GNSS 615 I 14 4 2 Carrier-Phase Positioning 616 I' 14 4 3 GNSS Attitude 618 § 14 4 4 Large Heading Errors 619 xiv Contents 14 4 5 Advanced IMU Error Modeling 621 14 4 6 Smoothing 622 References 622 CHAPTER 15 INS Alignment, Zero Updates, and Motion Constraints 627 15 1 Transfer Alignment 627 15 1 1 Conventional Measurement Matching 629 15 1 2 Rapid Transfer Alignment 631 15 1 3 Reference Navigation System 633 15 2 Quasi-Stationary Alignment 634 15 2 1 Coarse Alignment 634 15 2 2 Fine Alignment 637 15 3 Zero Updates 638 15 3 1 Stationary-Condition Detection 638 15 3 2 Zero Velocity Update 639 15 3 3 Zero Angular Rate Update 640 15 4 Motion Constraints 641 15 4 1 Land Vehicle Constraints 641 15 4 2 Pedestrian Constraints 643 15 4 3 Ship and Boat Constraint 644 References 644 CHAPTER 16 Multisensor Integrated Navigation 647 16 1 Integration Architectures 647 16 1 1 Cascaded Single-Epoch Integration 648 16 1 2 Centralized Single-Epoch Integration 651 16 1 3 Cascaded Filtered Integration 652 16 1 4 Centralized Filtered Integration 654 16 1 5 Federated Filtered Integration 655 16 1 6 Hybrid Integration Architectures 658 16 1 7 Total-State Kalman Filter Employing Prediction 659 16 1 8 Error-State Kalman Filter 661 16 1 9 Primary and Reversionary Moding 663 16 1 10 Context-Adaptive Moding 665 16 2 Dead Reckoning, Attitude, and Height Measurement 666 16 2 1 Attitude 667 16 2 2 Height and Depth 673 16 2 3 Odometry 674 16 2 4 Pedestrian Dead Reckoning Using Step Detection 677 16 2 5 Doppler Radar and Sonar 680 16 2 6 Visual Odometry and Terrain-Referenced Dead Reckoning 682 16 3 Position-Fixing Measurements 682 16 3 1 Position Measurement Integration 683 16 3 2 Ranging Measurement Integration 685 f 16 3 3 Angular Measurement Integration 690 16 3 4 Line Fix Integration 694 16 3 5 Handling Ambiguous Measurements 695 f ■■■ 16 3 6 Feature Tracking and Mapping 697 a 16 3 7 Aiding of Position-Fixing Systems 698 f ; f; * : References 699 1 CHAPTER 17 Fault Detection, Integrity Monitoring, and Testing 701 17 1 Failure Modes 702 I 17 1 1 Inertial Navigation 702 I 17 1 2 Dead Reckoning, Attitude, and Height Measurement 702 H 17 1 3 GNSS 703 17 1 4 Terrestrial Radio Navigation 703 f 17 1 5 Environmental Feature Matching and Tracking 704 ■ f 17 1 6 Integration Algorithm 704 § 17 1 7 Context 705 17 2 Range Checks 705 17 2 1 Sensor Outputs 705 f- 17 2 2 Navigation Solution 706 f; 17 2 3 Kalman Filter Estimates 706 f 17 3 Kalman Filter Measurement Innovations 706 17 3 1 Innovation Filtering 707 17 3 2 Innovation Sequence Monitoring 709 iff- 17 3 3 Remedying Biased State Estimates 711 ■fr- 17 4 Direct Consistency Checks 712 \|v 17 4 1 Measurement Consistency Checks and RAIM 713 17 4 2 Parallel Solutions 715 Sv- 1 17 5 Infrastructure-Based Integrity Monitoring 719 ■f: 17 6 Solution Protection and Performance Requirements 720 17 7 Testing 724 -^P 17 7 1 Field Trials 724 : 17 7 2 Recorded Data Testing 725 t- 17 7 3 Laboratory Testing 725 t 17 7 4 Software Simulation 725 f References 726 18 Applications and Future Trends 729 •Jr' 18 1 Design and Development 729 18 2 Aviation 731 18 3 Guided Weapons and Small UAVs 733 f ■ 18 4 Land Vehicle Applications 733 i 18 5 Rail Navigation 734 b, 18 6 Marine Navigation 735 : Jv 18 7 Underwater Navigation 737 XVI Contents 18 8 Spacecraft Navigation 737 18 9 Pedestrian Navigation 738 18 10 Other Applications 739 18 11 Future Trends 740 References 741 List of Symbols 743 Acronyms and Abbreviations 751 About the Author 757 DVD Contents 759
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id	DE-604.BV043785690
illustrated	Not Illustrated
indexdate	2024-07-31T01:10:29Z
institution	BVB
isbn	9781523117529 9781608070060 1608070069 1608070050
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-029196750
oclc_num	880437603
open_access_boolean
owner	DE-1046 DE-1047 DE-29
owner_facet	DE-1046 DE-1047 DE-29
physical	1 Online-Ressource
psigel	ZDB-10-ARA ZDB-4-EBA ZDB-4-ENC ZDB-4-EBA FAW_PDA_EBA ZDB-4-EBA UER_PDA_EBA_Kauf
publishDate	2013
publishDateSearch	2013
publishDateSort	2013
publisher	ARTECH HOUSE
record_format	marc
series2	GNSS technology and applications series
spelling	Groves, Paul D. aut Principles of GNSS, inertial, and multisensor integrated navigation systems Paul D. Groves Second edition Boston ARTECH HOUSE [2013] © 2013 1 Online-Ressource txt rdacontent c rdamedia cr rdacarrier GNSS technology and applications series TECHNOLOGY & ENGINEERING / Engineering (General) bisacsh Artificial satellites in navigation Global Positioning System Inertial navigation systems Navigation / Technological innovations Global Positioning System Artificial satellites in navigation Inertial navigation systems Navigation Technological innovations Navigation (DE-588)4041457-7 gnd rswk-swf Navigationssystem (DE-588)4781185-7 gnd rswk-swf GNSS-2 (DE-588)4713269-3 gnd rswk-swf Navigationssystem (DE-588)4781185-7 s GNSS-2 (DE-588)4713269-3 s DE-604 Navigation (DE-588)4041457-7 s 1\p DE-604 Erscheint auch als Druck-Ausgabe 978-1-60807-005-3 HEBIS Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029196750&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Groves, Paul D. Principles of GNSS, inertial, and multisensor integrated navigation systems TECHNOLOGY & ENGINEERING / Engineering (General) bisacsh Artificial satellites in navigation Global Positioning System Inertial navigation systems Navigation / Technological innovations Global Positioning System Artificial satellites in navigation Inertial navigation systems Navigation Technological innovations Navigation (DE-588)4041457-7 gnd Navigationssystem (DE-588)4781185-7 gnd GNSS-2 (DE-588)4713269-3 gnd
subject_GND	(DE-588)4041457-7 (DE-588)4781185-7 (DE-588)4713269-3
title	Principles of GNSS, inertial, and multisensor integrated navigation systems
title_auth	Principles of GNSS, inertial, and multisensor integrated navigation systems
title_exact_search	Principles of GNSS, inertial, and multisensor integrated navigation systems
title_full	Principles of GNSS, inertial, and multisensor integrated navigation systems Paul D. Groves
title_fullStr	Principles of GNSS, inertial, and multisensor integrated navigation systems Paul D. Groves
title_full_unstemmed	Principles of GNSS, inertial, and multisensor integrated navigation systems Paul D. Groves
title_short	Principles of GNSS, inertial, and multisensor integrated navigation systems
title_sort	principles of gnss inertial and multisensor integrated navigation systems
topic	TECHNOLOGY & ENGINEERING / Engineering (General) bisacsh Artificial satellites in navigation Global Positioning System Inertial navigation systems Navigation / Technological innovations Global Positioning System Artificial satellites in navigation Inertial navigation systems Navigation Technological innovations Navigation (DE-588)4041457-7 gnd Navigationssystem (DE-588)4781185-7 gnd GNSS-2 (DE-588)4713269-3 gnd
topic_facet	TECHNOLOGY & ENGINEERING / Engineering (General) Artificial satellites in navigation Global Positioning System Inertial navigation systems Navigation / Technological innovations Global Positioning System Artificial satellites in navigation Inertial navigation systems Navigation Technological innovations Navigation Navigationssystem GNSS-2
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029196750&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT grovespauld principlesofgnssinertialandmultisensorintegratednavigationsystems

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