Collection 2 JPSS1 Product Descriptions: VJ102DNB_NRT
Last update: April 8, 2019
Data Set Short Name:
Data Set Long Name:
VIIRS/JPSS1 Day/Night Band 6-Min L1B Swath 750m NRT
Joint Polar Satellite System 1 (JPSS1)
Visible-Infrared Imaging-Radiometer Suite (VIIRS)
The Near Real Time (NRT) VIIRS Level 1 and Level 2 swath (VJ102DNB_NRT) products are generated from the processing of 6 minutes of VIIRS data acquired during the JPSS1 satellite overpass. The Day/Night band (DNB) is a panchromatic channel covering the wavelengths from 500 nm to 900 nm, and sensitive to visible and near-infrared from daylight down to the low-level radiation observed at night.
The VIIRS DNB is much improved from previous products due in large part to its complicated continuous on-board calibration. In addition, new-moon Earth observations are used to estimate and remove stray light. These corrections are a first of its kind to provide on-orbit radiometric calibration. The corrections made to the DNB data are provided by the NASA VIIRS Characterization Support Team and are likely to continue to evolve given this new methodology.
The spatial resolution of the instrument at viewing nadir is approximately 750 m for the DNB and the Moderate-resolution Bands and and 375m for the Imagery bands. The DNB is aggregated to maintain nearly constant horizontal spatial resolution across the swath.
As the DNB is sensitive to nighttime radiation over the full lunar cycle, the incoming solar and lunar radiation must be properly modeled to calculate the reflectance. However, the DNB is sensitive to more sources of radiation than just the sun and moon.
file_naming_convention = VJ102DNB_NRT.AYYYYDDD.HHMM.CCC.nc
- AYYYYDDD = Acquisition Year and Day of Year
- HHMM = Acquisition Hour and Minute
- CCC = Collection number
- nc = NetCDF4
240 files per day
750m at nadir
File Size (MB):
We kindly request that you cite the use of this data set in a publication using the following citation.
Author (PI), et al., 2016. Product name as given on web site. NASA MODIS Adaptive Processing System, Goddard Space Flight Center, USA: [link as given on product site].
Wolfe, R. E., G. Lin, M. Nishihama, K. P. Tewari, J. C. Tilton, and A. R. Isaacman (2013), Suomi NPP VIIRS prelaunch and on-orbit geometric calibration and characterization, J. Geophys. Res. Atmos., 118, 11508–11521, doi:10.1002/jgrd.50873.
VIIRS Characterization Support Team (VCST)/ MODIS Adaptive Processing System (MODAPS)