Open AccessJournal Article
Global Positioning System : Theory and Applications I
TLDR
Differential GPS and Integrity Monitoring differential GPS Pseudolites Wide Area Differential GPS Wide Area Augmentation System Receiver Autonomous Integrity Monitoring Integrated Navigation Systems Integration of GPS and Loran-C GPS and Inertial Integration Receiver Aut autonomous Integrity Monitoring Availability for GPS Augmented with Barometric Altimeter Aiding and Clock CoastingAbstract:
Differential GPS and Integrity Monitoring Differential GPS Pseudolites Wide Area Differential GPS Wide Area Augmentation System Receiver Autonomous Integrity Monitoring Integrated Navigation Systems Integration of GPS and Loran-C GPS and Inertial Integration Receiver Autonomous Integrity Monitoring Availability for GPS Augmented with Barometric Altimeter Aiding and Clock Coasting GPS and Global Navigation Satellite System (GLONASS) GPS Navigation Applications Land Vehicle Navigation and Tracking Marine Applications Applications of the GPS to Air Traffic Control GPS Applications in General Aviation Aircraft Automatic Approach and Landing Using GPS Precision Landing of Aircraft Using Integrity Beacons Spacecraft Attitude Control Using GPS Carrier Phase Special Applications GPS for Precise Time and Time Interval Measurement Surveying with the Global Position System Attitude Determination Geodesy Orbit Determination Test Range Instrumentation.read more
Citations
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Optimisation and sensitivity analysis of GPS receiver tracking loops in dynamic environments
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Signal architecture for a distributed magnetic local positioning system
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TL;DR: This paper presents a sensing system which can be used by a mobile robot to measure absolute position and attitude, even in the cluttered environment of an office building or warehouse, based on extremely-low frequency magnetic fields.
Proceedings ArticleDOI
Robust node localization for wireless sensor networks
TL;DR: This paper argues that the existing localization algorithms, individually, work well for single sets of assumptions, but these assumptions do not always hold, as in the case of outdoor, complex environments, and proposes a framework that allows the execution of multiple localization schemes.
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Target localisation techniques and tools for multiple-input multiple-output radar
TL;DR: Performance is evaluated based on closed-form solutions developed for the best linear unbiased estimator (BLUE) for each of the localisation methods for multiple-input multiple-output (MIMO) radar systems with widely distributed elements.
Real-Time Precise Point Positioning Using Single Frequency Data
Kongzhe Chen,Yang Gao +1 more
TL;DR: This paper investigates PPP using single-frequency data which will be of interest to a broad range of applications as the majority of GPS users are usingsingle-frequency GPS receivers, and how to mitigate the ionospheric effects in un-differenced singlefrequency measurements is the key in order to develop single- frequencies PPP systems.
References
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Wide Area Differential GPS
TL;DR: Simulation results indicate that normal GPS positioning errors can potentially be reduced by more than 95% using WADGPS.
Ephemeris and Clock Navigation Message Accuracy
J. Zumberge,W. Bertiger +1 more
TL;DR: The accuracy of the ephemeris and clock corrections contained in the GPS navigation message is discussed.
GPS and Inertial Integration
TL;DR: This chapter devotes one section to address each of the following questions: how complex are the integration algorithms required to provide the desired level of performance, with options for growth to meet future requirements?
Test Range Instrumentation
TL;DR: In the early 1970s, laser trackers became available to support test activities as discussed by the authors, and a combination of radar, distance-measuring equipment (DME), optical trackers such as cinetheodolites, and other miscellaneous instrumentation to provide time-space position information (TSPI) to satisfy test platform positioning requirements.