On the characterization of subpixel effects for passive microwave remote sensing of snow in montane environments

Vander Jagt, Benjamin J.

January 2015

No description available.

Hydrologic Sciences

Hydrology

Snow

Passive microwave remote sensing

Hydrology

Scaling

Microwave Radiometer (MWR) Evaluation of Multi-Beam Satellite Antenna Boresight Pointing Using Land-Water Crossings, for the Aquarius/SAC-D Mission

Clymer, Bradley

01 January 2015

This research concerns the CONAE Microwave Radiometer (MWR), on board the Aquarius/SAC-D platform. MWR's main purpose is to provide measurements that are simultaneous and spatially collocated with those of NASA's Aquarius radiometer/scatterometer. For this reason, knowledge of the MWR antenna beam footprint geolocation is crucial to mission success. In particular, this thesis addresses an on-orbit validation of the MWR antenna beam pointing, using calculated MWR instantaneous field of view (IFOV) centers, provided in the CONAE L-1B science data product. This procedure compares L-1B MWR IFOV centers at land/water crossings against high-resolution coastline maps. MWR IFOV locations versus time are computed from knowledge of the satellite's instantaneous location relative to an earth-centric coordinate system (provided by on-board GPS receivers), and a priori measurements of antenna gain patterns and mounting geometry. Previous conical scanning microwave radiometer missions (e.g., SSM/I) have utilized observation of rapid change in brightness temperatures (T_B) to estimate the location of land/water boundaries, and subsequently to determine the antenna beam-pointing accuracy. In this thesis, results of an algorithm to quantify the geolocation error of MWR beam center are presented, based upon two-dimensional convolution between each beam's gain pattern and land-water transition. The analysis procedures have been applied to on-orbit datasets that represent land-water boundaries bearing specific desirable criteria, which are also detailed herein. The goal of this research is to gain a better understanding of satellite radiometer beam-pointing error and thereby to improve the geolocation accuracy for MWR science data products.

Microwave radiometry

passive microwave remote sensing

calibration

geolocation

Electrical and Computer Engineering

Electrical and Electronics

Engineering

Exploration of the potential for hydrologic monitoring via passive microwave remote sensing with a new footprint-based algorithm

Li, Dongyue

22 July 2011

No description available.

Civil Engineering

Earth

Geographic Information Science

Geophysical

passive microwave remote sensing

snow water equivalent

climate

AMSR-E

Sierra Nevada