Digital Satellite Navigation and Geophysics: A Practical Guide with GNSS Signal Simulator and Receiver Laboratory by Ivan G. PetrovskiDigital Satellite Navigation and Geophysics: A Practical Guide with GNSS Signal Simulator and Receiver Laboratory by Ivan G. Petrovski

Digital Satellite Navigation and Geophysics: A Practical Guide with GNSS Signal Simulator and…

byIvan G. Petrovski, Toshiaki Tsujii

Hardcover | April 23, 2012

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Bridge the gap between theoretical education and practical work experience with this hands-on guide to GNSS, which features: • A clear, practical presentation of GNSS theory, with emphasis on GPS and GLONASS • All the essential theory behind software receivers and signal simulators • Key applications in navigation and geophysics, including INS aiding, scintillation monitoring, earthquake studies and more • Physical explanations of various important phenomena, including the similarity of code delay and phase advance of GNSS signals, and negative cross-correlation between scintillation intensity and phase variations. Whether you are a practising engineer, a researcher or a student, you will gain a wealth of insights from the authors' 25 years of experience. You can explore numerous practical examples and case studies and get hands-on user experience with a bundled real-time software receiver, signal simulator and a set of signal data, enabling you to create your own GNSS lab for research or study.
Title:Digital Satellite Navigation and Geophysics: A Practical Guide with GNSS Signal Simulator and…Format:HardcoverDimensions:338 pages, 9.72 × 6.85 × 0.75 inPublished:April 23, 2012Publisher:Cambridge University PressLanguage:English

The following ISBNs are associated with this title:

ISBN - 10:0521760542

ISBN - 13:9780521760546

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Table of Contents

Foreword Richard B. Langley; 1. Methods of positioning with navigation satellites; 2. Presentations and applications of GNSS orbits; 3. GNSS signal generation in transmitters and simulators; 4. Signal propagation through the atmosphere; 5. Receiver RF front end; 6. Real-time baseband processor on a PC; 7. Multipath; 8. Optimization of GNSS observables; 9. Using observables in navigation related tasks; 10. Electromagnetic scintillation of GNSS signal; 11. Geophysical measurements using GNSS signals; 12. INS aiding in baseband and navigation processors.

Editorial Reviews

"Now it is possible to learn how GNSS work
by doing " - Richard Langley, Professor of Geodesy and Precision Navigation, University of New Brunswick