Bridge the gap between theoretical education and practical work experience with this hands-on guide to GNSS, which features: ac A clear, practical presentation of GNSS theory, with emphasis on GPS and GLONASS ac All the essential theory behind software receivers and signal simulators ac Key applications in navigation and geophysics, including INS aiding, scintillation monitoring, earthquake studies and more ac 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.The threshold should be defined as a function of number of satellites in view, variance of pseudorange observables, and ... In order to avoid interference with non-participant receivers, called the near/far problem, the pseudolites transmit theanbsp;...
|Title||:||Digital Satellite Navigation and Geophysics|
|Author||:||Ivan G. Petrovski, Toshiaki Tsujii|
|Publisher||:||Cambridge University Press - 2012-03-29|