Global Positioning System: Theory and Applications, Volume 2Bradford W. Parkinson, James J. Spilker This two-volume set explains the technology, performance, and applications of the Global Positioning System (GPS). Presenting the history of GPS development, the basic concepts and theory of GPS, and the recent developments and numerous applications of GPS, each chapter is authored by experts in their area of GPS. |
Contents
Preface xxxi | 8 |
Bradford W Parkinson and Per K Enge Stanford University | 8 |
Introductory GPS System Description and Technical Design | 10 |
Copyright | |
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Common terms and phrases
accuracy aircraft airport algorithm altimeter antenna attitude determination augmentation availability aviation bandwidth baseline bias broadcast calibration carrier phase CDGPS clock coasting components compute constellation corrections coverage cycle ambiguities dead reckoning detection DGPS difference Differential GPS dynamic ECEF ephemeris equations filter frequency function geometry Global Positioning System GLONASS GPS Integrity GPS receiver GPS satellites HDOP inertial Institute of Navigation Integrity Beacon integrity monitoring ionospheric Kalman filter linear Loran Loran-C matrix measurements mode multipath n.mi navigation system noise nonprecision approach offset operational orbit outage P-code parameters parity performance phases of flight pilot position error position estimate precision approach Pseudolite pseudorange radar RAIM range reference station route RTCA runway satellite navigation system sensor shown in Fig simulation standard Table tion tracking transmitted VDOP vector vehicle velocity vertical WAAS WADGPS waypoint