VNP02MOD - VIIRS/NPP Moderate Resolution 6-Min L1B Swath 750m
VNP02MOD is the short-name for the Suomi National Polar-orbiting Partnership (SNPP) platform-based NASA VIIRS Level-1B calibrated radiances product derived from the sixteen moderate-resolution or M-bands, which have a spatial resolution of 750-meters at nadir. These M-bands comprise eleven reflective solar bands (RSB) and five thermal emissive bands (TEB). Each of the M-bands has 16 detectors in the along-track direction with 16 rows of pixels per scan that provide a 750 m resolution. Ranging in wavelengths from 0.402 µm to 12.49 µm, the M-bands are sensitive to visible, near-, shortwave-, mediumwave-, and longwave-infrared wavelengths. Derived from the NASA VIIRS Level-1A raw radiances, this product includes calibrated and geolocated radiance and reflectance data, quality flags, and granule- and collection-level metadata. In contrast to a MODIS Level-1B product, which temporally spans 5-minutes, the VIIRS Level-1B calibrated radiances product contains a nominal temporal duration of 6-minutes. The image dimensions of the 750 m swath product measure 3,232 lines by 3,200 pixels.
Traceability for Feference-based Instrument Calibration and Measurement Uncertainty
Traceability relates to how an instrument’s uncertainty measurements were calibrated using reference sources whose absolute radiometric performance is well-known and understood relative to the International System of Units (SI). This usually happens in the pre-launch calibration phase using a national laboratory’s standard sources, and later corroborated as part of the on-orbit validation activities in the post-launch phase.
The SNPP VIIRS instrument’s pre-launch radiometric calibration was accomplished through measurements that are traceable to the National Institute of Standards and Technology (NIST), and its post-launch on-orbit characterizations are based on data derived from the VIIRS’ on-board calibrators.
VIIRS Level-1B Measurement Uncertainty
The NASA VIIRS Characterization Support Team has developed VIIRS Level-1B measurement uncertainty algorithms that are designed to empirically derive measurement uncertainty values from the output Level-1B products to compare against the recommended values in the VIIRS Sensor Specifications that are detailed in the VIIRS Algorithm Theoretical Basis Document (ATBD).
Radiometric Accuracy
Radiometric accuracy forms a key requirement that enables us to derive good quality Level-22 retrievals, and provide the basis for higher-level products. The SNPP VIIRS instrument’s radiometric accuracy is characterized for each of its three spectral band groups:
Reflective Solar Bands: Based on the VIIRS sensor specifications, the VIIRS reflective solar bands’ calibration uncertainty for spectral reflectance over a scene with typical radiance is defined at less than 2%.
Thermal Emissive Bands: Given a uniform scene with 267 K brightness temperature (for image and emissive bands), the specified calibration uncertainty for spectral radiance is defined at 5% for Image band-4 and 2.5% for Image band-5.
Day-Night Band: The DNB’s defined radiometric calibration uncertainty for the effective in-band radiance over a uniform scene is gain-state dependent.
Links
- Search for Product Files
- Data Archive
- VIIRS Level-1 Change Summary
- VIIRS L1B User Guide - Version 3
- VIIRS L1B Calibration ATBD
- VIIRS L1B Geolocation ATBD
- DOI: 10.5067/VIIRS/VNP02MOD.002
Shortname: | VNP02MOD |
Platform: | Suomi-NPP |
Instrument: | VIIRS |
Processing Level: | Level-1B |
Data Format: | netCDF4/HDF5 |
Spatial Resolution: | 750 m |
Temporal Resolution: | 6 minute |
ArchiveSets: | 5200 |
Collection: | NPP and JPSS1 VIIRS data 2.0 (ArchiveSet 5200) |
PGE Number: | PGE502 |
File Naming Convention: | Syntax: ESDT.AYYYYDDD.HHMM.CCC.YYYYDDDHHMMSS.Format
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Citation: | Lin, G., Wolfe, R.E., Zhang, P., Dellomo, J.J., & Tan, B. (2022) Ten Years of VIIRS On-Orbit Geolocation Calibration and Performance. In *Remote Sensing*, 14, 4212. https://doi.org/10.3390/rs14174212 Lin, G., Wolfe, R. E., Dellomo, J. J., Tan, B., & Zhang, P. (2020). SNPP and NOAA-20 VIIRS on-orbit geolocation trending and improvements. In *Earth Observing Systems XXV* (Vol. 11501, pp. 215-225). SPIE. https://doi.org/10.1117/12.2569148 Wolfe, R.E., Lin, G., Nishihama, M., Tewari, K.P., Tilton, J.C., & Isaacman, A.R. (2013) Suomi NPP VIIRS prelaunch and on-orbit geometric calibration and characterization. *J. Geophys. Res. Atmos.* 118, 11508-11521. Wolfe, R.E., Lin, G., Nishihama, M. Tewari, K.P., & Montano, E. (2013) NPP VIIRS Early On-Orbit Geometric Performance. In *Proceedings of the Earth Observing Systems XVII*, San Diego, SPIE, Bellingham, WA, Volume 8510, p. 851013. |
Keywords: | SNPP VIIRS, L1B, Moderate resolution, M-bands, Calibrated Radiances |