A role for AVIRIS in the Landsat and Advanced Land Remote Sensing Systems program
As a calibrated imaging spectrometer flying at a 20 km altitude, AVIRIS may contribute to the Landsat and the Advanced Land Remote Sensing System efforts. These contributions come in the areas of: (1) on-orbit calibration, (2) specification of new spectral bands, (3) validation of algorithms, and (4) investigation of an imaging spectrometer of the Advanced Land Remote Sensing System.
Related Earth Science Documents
A Deep Neural Network for Achieving Spectrally Consistent and Seamless Infrared Radiance Measurements Across Geostationary Satellite Domains
The NASA Clouds and the Earth's Radiant Energy System (CERES) project provides the scientific community with observed top-of-atmosphere (TOA) shortwave and longwave fluxes for climate monitor
A Fast and Efficient Method for Deriving 20 years of Climate Data Records from Multiple Satellite IR Sounders
Hyperspectral observations from satellite-based sensors provide high information content for the Earth’s atmospheric and surface properties. Deriving Climate Data Records (CDRs) from multiple IR sound
A Multi-Satellite Framework to Rapidly Evaluate Extreme Biosphere Cascades: The Western US 2021 Drought and Heatwave
The increasing frequency and intensity of climate extremes and complex ecosystem responses motivate the need for integrated observational studies at low-latency to determine biosphere responses and ca