Document Library - Sentinel Online
Tailoring of the Earth Observation File Format Standard for the Sentinel-5P Ground Segment
This technical note provides the file naming conventions and the file format adopted by the Sentinel 5-Precursor (S5P) Payload Data Ground Segment (PDGS) for multiple product classes.
Sentinel 1 SAR Instrument Calibration and Characterisation PlanThis document describes the internal calibration and characterisation activities of the Sentinel-1 C-band SAR instrument.
Sentinel-1 Level-0 Product Format Specifications
This document aims to provide the format specifications for Level-0 products generated in the framework of the Sentinel-1 Payload Data Ground Segment (S1 PDGS) project.
Sentinel-3 OLCI Confidence Check ATBD
The confidence check ATBD defines the OLCI classification flags and details of example quality flags that will provide the end users with confidence in the OLCI products.
Sentinel-3 OLCI Gaseous Correction ATBD
This ATBD describes the impact of the relevant absorption features due to atmospheric gases within the spectral domain of OLCI. Procedures will be discussed to correct the influence of atmospheric ...
Sentinel-3 OLCI Pixel Classification ATBD
The aim of the classification is to distinguish water and land i.e. it will be designed to separate pixels into the water and land chains as there is currently no OLCI atmospheric processing chain. ...
Sentinel-3 OLCI Ocean Colour Turbid Water ATBD
This ATBD describes the algorithm for the determination of inherent optical properties (IOPs) and the concentration of water constituents in case 2 waters from water leaving radiance reflectance sp ...
Sentinel-3 OLCI Water Vapour ATBD
This ATBD describes the retrieval of water vapour from OLCI measurements above land, ocean and clouds.
Sentinel-3 OLCI Ocean Colour Products in Case 1 Waters ATBD
The purpose of this document is to lay out algorithms for the OLCI ocean colour products in Case 1 waters.
Sentinel-3 OLCI Atmospheric corrections over Case 1 Waters ATBD
The purpose of this document is to lay out the OLCI atmospheric correction algorithm above Case 1 waters.