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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Review of current GPS methodologies for producing accurate time series and their error sources
Xiaoxing He,Xiaoxing He,Jean-Philippe Montillet,Rui Fernandes,Rui Fernandes,Machiel Bos,Kegen Yu,Xianghong Hua,Weiping Jiang +8 more
TL;DR: In this article, the authors provide a review spanning over 25 years of advances in processing strategies, error mitigation methods and noise modeling for the processing and analysis of GPS daily position time series.
Journal ArticleDOI
Analysis of Iridium-Augmented GPS for Floating Carrier Phase Positioning
TL;DR: In this article, a fixed-interval positioning and cycle ambiguity estimation algorithm is derived and a residual-based carrier-phase RAIM detection method is investigated for integrity against single-satellite step and ramp-type faults of all magnitudes and start times.
Journal ArticleDOI
Application of Least-Squares Variance Component Estimation to GPS Observables
TL;DR: This contribution can be seen as an attempt to apply a rigorous method for variance components in a straightforward manner directly to GPS observables.
Journal ArticleDOI
Bluetooth scatternet formation: A survey
TL;DR: The research contributions in this arena are brought together to give an overview of the state-of-the-art, and processes for network formation, routing and intra- and inter-piconet scheduling, are explained and classified.
Journal ArticleDOI
Multipath mitigation and NLOS detection using vector tracking in urban environments
TL;DR: It is shown that vector tracking reduces the root-mean-square positioning error by about 30 % compared with an equivalent conventional receiver in urban environments and is capable of detecting long-delay NLOS reception for a GPS receiver without any external aiding.
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.