Title :
Sensitivity of a 1.4 GHz direct-sampling digital radiometer
Author :
Fischman, Mark A. ; England, Anthony W.
Author_Institution :
Radiat. Lab., Michigan Univ., Ann Arbor, MI, USA
fDate :
9/1/1999 12:00:00 AM
Abstract :
This paper presents a novel direct RF sampling receiver architecture that will greatly facilitate the implementation of higher spatial resolution satellite radiometers for improved near-term climate forecasting. Direct-sampling is especially suitable for integration onto the distributed, multiple element platform used in L-band synthetic thinned array radiometry (STAR). To evaluate the direct-sampling concept, the authors have developed a statistical model that predicts the worst case radiometric sensitivity for a 1.4 GHz digital receiver. Theoretical results show that only 2-3 bits of converter resolution are needed to approach the performance of an ideal analog radiometer and that sampling jitter will not significantly degrade the performance of STAR
Keywords :
UHF detectors; hydrological equipment; hydrological techniques; moisture measurement; radiometers; radiometry; remote sensing; soil; 1.4 GHz; L-band; STAR; UHF; direct RF sampling receiver architecture; direct-sampling concept; direct-sampling digital radiometer; equipment; hydrology; instrument; land surface; measurement technique; microwave radiometry; satellite radiometer; sensitivity; soil moisture; statistical model; synthetic thinned array radiometry; terrain mapping; Correlators; Local oscillators; Microwave radiometry; Packaging; Radio frequency; Sampling methods; Satellite broadcasting; Sensor arrays; Soil moisture; Spatial resolution;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
