Parameter trade-offs for imaging spectroscopy systems
Abstract
With the advent of the EOS era and of configurable sensors, users of these instruments are faced with the twin problems of specifying data acquisition parameters and extracting desired information from the voluminous data. An application of a system model is made to explore system parameter trade-offs for a model sensor based on the High Resolution Imaging Spectrometer. Radiometric performance was studied, along with the effect on classification accuracy of several system parameters. Using a model scene based on typical agricultural reflectance and atmospheric conditions, the atmosphere and sensor are seen to have significant effects on the mean received signal and noise performance. The effect of random uncorrelated errors in the radiometric calibration of the detector array is seen to degrade system performance, especially in the spectral bands below 1 micron. Accurate pixel-to-pixel relative radiometric calibration and the use of the Image Motion Compensation option are seen to improve classification accuracy, especially at high solar zenith angles. Feature sets chosen from characteristics of the scene performed best overall, but ones chosen based on signal-to-noise ratios were seen to be more robust.
- Publication:
-
IEEE Transactions on Geoscience and Remote Sensing
- Pub Date:
- January 1991
- DOI:
- 10.1109/36.103293
- Bibcode:
- 1991ITGRS..29...57K
- Keywords:
-
- Data Acquisition;
- Imaging Spectrometers;
- Remote Sensing;
- Calibrating;
- Image Analysis;
- Radiometers;
- Reflectance;
- Spectral Bands