Multipath induced errors in meteorological Doppler/interferometer location systems
Abstract
One application of an RF interferometer aboard a low-orbiting spacecraft to determine the location of ground-based transmitters is in tracking high-altitude balloons for meteorological studies. A source of error in this application is reflection of the signal from the sea surface. Through propagating and signal analysis, the magnitude of the reflection-induced error in both Doppler frequency measurements and interferometer phase measurements was estimated. The theory of diffuse scattering from random surfaces was applied to obtain the power spectral density of the reflected signal. The processing of the combined direct and reflected signals was then analyzed to find the statistics of the measurement error. It was found that the error varies greatly during the satellite overpass and attains its maximum value at closest approach. The maximum values of interferometer phase error and Doppler frequency error found for the system configuration considered were comparable to thermal noise-induced error.
- Publication:
-
Final Report
- Pub Date:
- April 1984
- Bibcode:
- 1984ori..reptR....W
- Keywords:
-
- Doppler Effect;
- Error Analysis;
- Meteorological Satellites;
- Radio Interferometers;
- Radio Tracking;
- Signal Reflection;
- Data Collection Platforms;
- Phase Error;
- Satellite-Borne Instruments;
- Surface Roughness;
- Wave Propagation;
- Instrumentation and Photography