There are many satellite sensor products to choose from, and each has properties you can refine to modify the processing applied to the imagery when it's added to a mosaic dataset. There are several defaults, but you can further modify these and save them for your own use at another time.
You can refine each raster type below by defining the product type. You have the option to add all product types if you are unfamiliar with your data. This adds all your particular data, no matter how it was provided by the vendor. However, if you only want to add specific products to your mosaic dataset, choose the appropriate product type. For example, for QuickBird imagery, you can choose All, Basic, Standard, Standard Orthoready, and Orthorectified. Each of these options maps directly to a product provided by the vendor.
You can further refine how your data is added and processed by defining a processing template. These templates are specific to the type of data in each band. For example, in Landsat 7 ETM+ Level 1 products, there are nine bands. Band 8 is panchromatic and has the highest spatial resolution; bands 1 through 5 and 7 are multispectral bands (blue, green, red, and infrared) and have a lower spatial resolution than the panchromatic band; and bands 6a and 6b are thermal bands. For the Level 1 products, there are six processing templates:
- All Bands—The data is added and grouped in any or all of the processing templates that apply. For example, for Landsat 7, three entries will be created in the mosaic dataset for each scene: Panchromatic (band 8), Multispectral (bands 1 through 5 and 7), and Thermal (bands 6a and 6b). A field is added to the attribute table named Tag, which identifies the group each band belongs to, for example, Pan for panchromatic, MS for multispectral, and Thermal for the thermal bands.
- Panchromatic—Only the panchromatic band is added to the mosaic dataset. For example, for Landsat 7, only band 8 is added.
- Multispectral—The multispectral bands are added as a single raster dataset in the mosaic dataset. For example, for Landsat 7, there will be a single row in the mosaic dataset representing bands 1 through 5 and 7.
- Pansharpen—The bands used to generate the pan-sharpened product are added to the mosaic dataset. This generally results in a four-band mosaic dataset using the red, green, blue, infrared, and panchromatic bands.
- Pansharpen and Multispectral—The standard combination of multispectral and panchromatic bands added to the mosaic dataset. For example, for Landsat, a multispectral group will be added, but it will have a minimum pixel size set to the maximum pixel size of the panchromatic image. That way, the mosaicked image will not be pan sharpened when you zoom out beyond the resolution of the panchromatic image.
- Thermal—The thermal bands are added as a single raster dataset in the mosaic dataset. For example, for Landsat 7, there will be a single row in the mosaic dataset representing bands 6a and 6b.
In addition to these processing templates, Landsat 4-5 TM, Landsat 7 ETM+, and Landsat 8 raster types support higher-level science data products including the Landsat Analysis Ready Data (ARD). See Landsat 7 ETM+ for information on the product types and processing templates that support the higher-level science data products.
By default, the bands will be ordered sequentially—the first band in the source will be the first band in the raster added to the mosaic dataset, and so on. However, if you defined a product definition when creating the mosaic dataset, the data defined by these raster types will be added according to their wavelengths. For example, if the product definition is Natural Color (RGB), the bands with the wavelengths closest to the red, green, and blue wavelengths will be added to the raster in the mosaic dataset. If your dataset does not have a band of a particular wavelength, the closest wavelength will be chosen.
Note:
If a Product Definition value is defined when creating the mosaic dataset, add the data using the correct template for the raster type. For example, if you defined Landsat for the mosaic dataset's product definition, it will be expecting a dataset with five bands. Therefore, you should use the raster type's Multispectral template. If you use the Pansharpen template, it only adds the first four bands to the mosaic dataset and the other will be empty.
Note:
For details about SAR satellite raster types, refer to Synthetic aperture radar sensor support.The default template is often the combined Pansharpen and Multispectral templates.
ASTER
Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) is an advanced multispectral imager that was launched by NASA in December 1999. ASTER covers a wide spectral region with 14 bands from the visible to the thermal infrared with high spatial, spectral, and radiometric resolution. The spatial resolution varies with wavelength: The visible and near infrared (VNIR) at 15 meters, the shortwave infrared (SWIR) at 30 meters, and the thermal infrared (TIR) at 90 meters. Each ASTER scene covers an area of 60 by 60 kilometers. To learn more about this sensor, see the ASTER on the NASA TERRA website.
Several ASTER products are supported:
- Level 1
- L1T - Registered Radiance at the Sensor - Precision Terrain Corrected
- L1B - Registered Radiance at the Sensor
- Level 2
- AST 05 - Surface Emissivity
- AST07 - Surface Reflectance
- AST 08 - Surface Kinetic Temperature
- AST09 - Surface Radiance
- Level 3
- AST14DEM - Digital Elevation Model
- AST14OTH - Registered Radiance at the Sensor - Orthorectified
- AST14DMO - Digital Elevation Model and Registered Radiance at the Sensor - Orthorectified
Product type | Processing templates |
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Spectral range
Tag | Band order | Wavelength (nm) | Description |
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VNIR | 1 | 520–600 | Visible near infrared 1 |
VNIR | 2 | 630–690 | Visible near infrared 2 |
VNIR | 3 | 760–860 | Visible near infrared 3N |
VNIR | 4 | 760–860 | Visible near infrared 3B2 |
SWIR | 1 | 1600–1700 | Shortwave infrared 4 |
SWIR | 2 | 2145–2185 | Shortwave infrared 5 |
SWIR | 3 | 2185-2225 | Shortwave infrared 6 |
SWIR | 4 | 2235-2285 | Shortwave infrared 7 |
SWIR | 5 | 2295-2365 | Shortwave infrared 8 |
SWIR | 6 | 2360-2430 | Shortwave infrared 9 |
TIR | 1 | 8125-8475 | Thermal infrared 10 |
TIR | 2 | 8475-8825 | Thermal infrared 11 |
TIR | 3 | 8925-9275 | Thermal infrared 12 |
TIR | 4 | 10250-10950 | Thermal infrared 13 |
TIR | 5 | 10950-11650 | Thermal infrared 14 |
BlackSky
The BlackSky raster type allows you to add raster data collected from the BlackSky's satellite constellation. These satellites are launched into a mid-inclination orbit providing high revisit rate cadence, responsive last-minute tasking, and timely collect-to-data-delivery latency time frames in the mid-latitudes between 53.5°N and 53.5°S. To learn more about this sensor, see .
The BlackSky sensor has three product types:
Product type | Processing templates |
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Spectral range
Tag | Band order | Wavelength (nm) | Description |
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PAN | 1 | 450–700 | Panchromatic |
MS | 1 | 590–700 | Red |
MS | 2 | 500–590 | Green |
MS | 3 | 450–520 | Blue |
DEIMOS-2
The DEIMOS-2 raster type allows you to add raster data collected from the DEIMOS-2 satellite, which is the second DEIMOS Earth observation system. DEIMOS-2 is a very high resolution multispectral optical satellite that has a 4-meter multispectral resolution. The panchromatic band has a 1-meter resolution, and a pan-sharpened product of 0.75 meters can be created after it has been ground processed. It operates in a Sun-synchronous orbit at an approximate altitude of 620 km. It operates a push-broom sensor that records five bands. To learn more about this sensor, see Deimos-2.
The DEIMOS-2 sensor has one product level:
- Level 1—This product is corrected for geometric distortions.
Product type | Processing templates |
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Spectral range
Tag | Band order | Wavelength (nm) | Description |
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PAN | 1 | 560–900 | Panchromatic |
MS | 2 | 466–525 | Blue |
MS | 3 | 532–599 | Green |
MS | 4 | 640–697 | Red |
MS | 5 | 770–892 | Near infrared |
DMCii
The DMCii raster type allows you to add raster data collected from the DMC satellites, such as AlSat-1, Beijing-1, Deimos-1, NigeriaSat-1, UK-DMC, and UK-DMC2.
Product type | Product type descriptions | Processing templates |
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All | Both L1R and L1T products will be looked for when adding image data. |
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L1R | This applies to L1R, a band-registered product derived from raw satellite data. | |
L1T | Orthorectified product derived from L1R product. |
The metadata for L1R and L1T product types is stored within the DIMAP (.dim) files.
Use the Pseudocolor processing template to view the DMCii imagery as a natural color image.
DMCii spectral range
Tag | Band order | Wavelength (nm) | Description |
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MS | 3 | 520–600 | Green |
MS | 2 | 630–690 | Red |
MS | 1 | 770–900 | Near infrared |
DubaiSat-2
The DubaiSat-2 raster type allows you to add raster data collected from the DubaiSat-2 satellite, which is the second Earth observation satellite of the United Arab Emirates (UAE) in continuation of the DubaiSat-1 project. DubaiSat-2 generates imagery at a spatial resolution of 1 meter in panchromatic and 4 meters in multispectral bands. To learn more about this sensor, see Emirates Institution for Advanced Science & Technology.
There are two product levels for DubaiSat-2:
- Geo—This product has had some geometric correction in addition to the radiometric and sensor correction and has been orthorectified based on ground control points. It uses a digital elevation model to eliminate distortions due to relief and has been georeferenced to a UTM projection. You can use this product with any processing template.
- Radio—This product has had some radiometric correction applied to fix distortions due to differences in the sensitivity of the elementary detectors of the sensor. You can use this product with any processing template.
Product type | Processing templates |
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Spectral range
Tag | Band order | Wavelength (nm) | Description |
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MS | 1 | 420–510 | Blue |
MS | 2 | 510–580 | Green |
MS | 3 | 600–720 | Red |
MS | 4 | 760–890 | Near infrared |
Pan | 1 | 450–900 | Panchromatic |
EMIT
Earth Surface Mineral Dust Source Investigation (EMIT) is NASA's mission to map the mineral composition of the dust sources regions via hyperspectral imaging spectroscopy. EMIT image consists of 285 bands with wavelength ranging from 381-2492 nanometers (nm). To learn more about EMIT and applications, see Jet Propulsion Laboratory.
EMIT products are stored as NetCDF files. To work with EMIT Level 1 and Level 2 products, use EMIT raster type, if you are working with multiple images and use Make Raster Layer tool for working with a single file.
EMIT raster type adds all bands to the mosaic dataset and the wavelength info of the first scene of the list defines the wavelength of the mosaic dataset. You can choose to exclude the bad bands while adding data. The following are the supported EMIT product levels and processing templates.
Product type | Processing templates |
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Note:
- The Level 2 mask product stores an image of multiple bands, representing several types of masks. The Reflectance Mask processing template adds all bands to the mosaic dataset, where the 8th band is the composite of all masks. Use Extract Band function to extract the 8th band as the mask.
- Reflectance and Reflectance Mask Composite templates will add all data bands and the 8th band from Level 2 mask product.
- The Level 2 Group 1 and Group 2 Band Depth and Mineral ID products stores band depth values and corresponding end member IDs as sub dataset. Use the corresponding templates to add data of band depth or mineral ID to the mosaic dataset. For Make Raster Layer tool, you must specify the sub dataset name in the input path, with a prefix r and a suffix. For example, for band from Level 2 mask product, specify:
EMITL2MIN:"<path to nc file>":group_1_band_depth
EMITL2MIN:"<path to nc file>":group_1_mineral_id
- EMIT Level 3 and Level 4 are stored in standard CF compliant NetCDF files. Use NetCDF raster type or Make Multidimensional Raster layer tool to work with these products.
FORMOSAT-2
The FORMOSAT-2 raster type allows you to add raster data collected from the FORMOSAT-2 satellite. To learn more about this sensor, see Airbus Defence and Space.
FORMOSAT-2 supports three types of products:
- Level 1A—This product has had some radiometric correction applied to fix distortions due to differences in the sensitivity of the elementary detectors of the sensor. You can use this product with any processing template and specify a DEM in the raster type's properties.
- Level 2A—This product has had the same radiometric correction as applied in the Level 1A product and has been georeferenced to a UTM WGS84 projection (without using ground control points). You can use this product with any processing template.
- Ortho—This product has had the same radiometric correction as applied in the Level 1A product and has been orthorectified based on ground control points and a digital elevation model to eliminate distortions due to relief. You can use this product with any processing template.
Product type | Processing templates |
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Spectral range
Tag | Band order | Wavelength (nm) | Description |
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MS | 1 | 630–690 | Red |
MS | 2 | 520–600 | Green |
MS | 3 | 450–520 | Blue |
MS | 4 | 770–900 | Near infrared |
Pan | 1 | 450–900 | Panchromatic |
GeoEye-1
The GeoEye-1 raster type allows you to add raster data collected from the GeoEye-1 satellite sensor and the OrbView-3 satellite sensor. To learn more about these sensors, see Maxar.
Product type | Processing templates |
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Spectral range
Tag | Band order | Wavelength (nm) | Description |
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Pan | 1 | 450–800 | Panchromatic |
MS | 1 | 450–510 | Blue |
MS | 2 | 510–580 | Green |
MS | 3 | 655–690 | Red |
MS | 4 | 780–920 | Near infrared |
GF-1 PMS
Gaofen-1 (GF-1), China’s high-resolution earth observation satellite, was launched in April 2013. The GF-1 PMS raster type allows you to add raster data collected from the GF-1 PMS sensor, which collects panchromatic and multispectral data.
Product type | Processing templates |
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Spectral range
Tag | Band order | Wavelength (nm) | Description |
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Pan | 1 | 450–900 | Panchromatic |
MS | 1 | 450–520 | Blue |
MS | 2 | 520–590 | Green |
MS | 3 | 630–690 | Red |
MS | 4 | 770–890 | Near infrared |
To learn more about this sensor, refer to the Earth Observation Portal website.
GF-1 WFV
The GF-1 WFV raster type allows you to add raster data collected from the GF-1 WFV sensor. The WFV captures data used for wide field viewing.
Product type | Processing templates |
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Spectral range
Tag | Band order | Wavelength (nm) | Description |
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MS | 1 | 450–520 | Blue |
MS | 2 | 520–590 | Green |
MS | 3 | 630–690 | Red |
MS | 4 | 770–890 | Near infrared |
To learn more about this sensor, refer to the Earth Observation Portal website.
GF-2 PMS
Launched on August 19, 2014, the GF-2 PMS has a 1-meter spatial resolution and a 45-kilometer-swath width. You can use it for geographic and natural resource surveys, environment and climate change monitoring, precision agriculture, disaster relief, and city planning. The data comes as a Level 1 product.
Spectral range
Tag | Band order | Wavelength (nm) | Description |
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Pan | 1 | 450–900 | Panchromatic |
MS | 1 | 450–520 | Blue |
MS | 2 | 520–590 | Green |
MS | 3 | 630–690 | Red |
MS | 4 | 770–890 | Infrared |
Product type | Processing templates |
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To learn more about this sensor, refer to the Earth Observation Portal website.
GF-4
The GF-4 satellite is the first geosynchronous orbiting satellite in China. It is equipped with a stare sensor that has a swath of over 400 kilometers. The visible and near infrared (VNIR) portion of the spectrum has a resolution of 50 meters. The mid-wave infrared (MWIR) portion has a resolution of 400 meters. GF-4 is based on area array staring imaging and has the capability of visible light, multispectrum, and infrared imaging. To learn more about this sensor, see GF-4.
Product type | Processing templates |
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Level 1 |
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Tag | Band order | Wavelength (nm) | Description |
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Pan | 1 | 450–900 | Panchromatic |
MS | 2 | 450–520 | Blue |
MS | 3 | 520–600 | Green |
MS | 4 | 630–690 | Red |
MS | 5 | 760–900 | Near infrared |
MWIR | 1 | 3500–4100 | Mid-wave infrared |
HJ 1A/1B CCD
The HJ 1A/1B CCD raster type allows you to add raster data collected from HJ-1A and HJ-1B satellites designed for environment and disaster monitoring.
Product type | Processing templates |
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Spectral range
Tag | Band order | Wavelength (nm) | Description |
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MS | 1 | 430–520 | Blue |
MS | 2 | 520–600 | Green |
MS | 3 | 630–690 | Red |
MS | 4 | 760–900 | Near infrared |
To learn more about these sensors, refer to the HJ-1A/1B specifications website.
IKONOS
The IKONOS raster type allows you to add raster data collected from the IKONOS satellite sensor. To learn more about this sensor, see Maxar .
Product type | Processing templates |
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Spectral range
Tag | Band order | Wavelength (nm) | Description |
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Pan | 1 | 526–929 | Panchromatic |
MS | 1 | 445–516 | Blue |
MS | 2 | 506–595 | Green |
MS | 3 | 632–698 | Red |
MS | 4 | 757–863 | Near infrared |
Jilin-1
The Jilin-1 is the China's first self-developed remote sensing satellite for commercial use. It is a 420-kilogram high-definition optical satellite with a 0.72-meter resolution panchromatic sensor and 2.88-meter resolution multispectral sensor. It is equipped with three deployable solar panels for power generation that are stored in internal batteries. The satellite will operate on a 656-kilometer Sun-synchronous orbit. To learn more about this sensor, see Jilin-1.
The Jilin-1 sensor has one product level:
- Level 1—This product has been corrected for geometric radiometric distortions and projected to UTM, with an RPC file.
Product type | Processing templates |
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Spectral range
Tag | Band order | Wavelength (nm) | Description |
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Pan | 1 | 500–800 | Panchromatic |
MS | 1 | 450–520 | Blue |
MS | 2 | 520–600 | Green |
MS | 3 | 630–690 | Red |
KOMPSAT-2
The KOMPSAT-2 raster type allows you to add raster data collected from KOMPSAT-2 (Korea Multi-Purpose Satellite-2). To learn more about this sensor, see Korea Aerospace Research Institute.
The KOMPSAT-2 products are generated in KARI and DIMAP format. There are two supported KOMPSAT-2 products:
- Level 1A—This product has had some radiometric correction applied to fix distortions due to differences in the sensitivity of the elementary detectors of the sensor.
- Level 2A—This product has had the same radiometric correction as applied in the Level 1A product and has been georeferenced to a UTM WGS84 projection (without using ground control points).
Product type | Processing templates |
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Spectral range
Tag | Band order | Wavelength (nm) | Description |
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MS | 1 | 450–520 | Blue |
MS | 2 | 520–600 | Green |
MS | 3 | 630–690 | Red |
MS | 4 | 760–900 | Near infrared |
Pan | 1 | 500–900 | Panchromatic |
KOMPSAT-3
The KOMPSAT-3 raster type allows you to add raster data collected from KOMPSAT-3 (Korea Multi-Purpose Satellite-3, also known as Arirang-3), a high-resolution Korean observation mission of the Korea Aerospace Research Institute (KARI). To learn more about this sensor, see Korea Aerospace Research Institute and Satellite Imaging Corporation.
The KOMPSAT-3 satellite supports three product types:
- Level 1G—This product has had some geometric correction in addition to the radiometric and sensor correction and has been orthorectified based on ground control points. It uses a digital elevation model to eliminate distortions due to relief and has been georeferenced to a UTM projection. You can use this product with any processing template.
- Level 1R—This product has had some radiometric correction applied to fix distortions due to differences in the sensitivity of the elementary detectors of the sensor. You can use this product with any processing template.
- Level 1O—This product has had some geometric correction in addition to the radiometric and sensor correction and has been orthorectified based on average height over the region. It is georeferenced to a UTM projection, and you can use it with any processing template.
Product type | Processing templates |
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Spectral range
Tag | Band order | Wavelength (nm) | Description |
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MS | 1 | 450–520 | Blue |
MS | 2 | 520–600 | Green |
MS | 3 | 630–690 | Red |
MS | 4 | 760–900 | Near infrared |
Pan | 1 | 450–900 | Panchromatic |
Landsat 1–5 MSS
The Landsat 1–5 MSS raster type allows you to add raster data collected from the Landsat Multispectral Scanner (MSS) instrument. The MSS instrument operated on the first five Landsat satellite spacecrafts. To learn more about this, see Landsat science.
Product type | Processing template |
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Use the Pseudocolor processing template to view the Landsat 1–5 MSS imagery as a natural color image.
Spectral range
Tag | Band order | Wavelength (nm) | Description |
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MS | 1 | 500–600 | Green |
MS | 2 | 600–700 | Red |
MS | 3 | 700–800 | Near infrared 1 |
MS | 4 | 800–1100 | Near infrared 2 |
Thermal | 1 | 10400–12500 | Thermal |
Landsat 4–5 TM
The Landsat 4–5 TM raster type allows you to add raster data collected from the Landsat Thematic Mapper (TM) instrument. To learn more about this and Landsat higher-level science data products, see Landsat science and Landsat higher-level science data products.
Product type | Processing template |
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Spectral range
Tag | Band order | Wavelength (nm) | Description |
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MS | 1 | 450–520 | Blue |
MS | 2 | 520–600 | Green |
MS | 3 | 630–690 | Red |
MS | 4 | 760–900 | Near infrared 1 |
MS | 5 | 1550–1750 | Near infrared 2 |
MS | 6 | 2080–2350 | Mid infrared |
Thermal | 1 | 10400–12500 | Thermal |
Landsat 7 ETM+
The Landsat 7 ETM+ raster type allows you to add raster data collected from the Landsat Enhanced Thematic Mapper Plus (ETM+) instrument. To learn more about this and Landsat higher-level science data products, see Landsat science.
Product type | Processing template |
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Spectral range
Tag | Band order | Wavelength (nm) | Description |
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MS | 1 | 450–520 | Blue |
MS | 2 | 520–600 | Green |
MS | 3 | 630–690 | Red |
MS | 4 | 770–900 | Near infrared 1 |
MS | 5 | 1550–1750 | Near infrared 2 |
MS | 6 | 2080–2350 | Mid infrared |
Thermal | 1 | 10400–12500 | Thermal 1 |
Thermal | 2 | 10400–12500 | Thermal 2 |
Pan | 1 | 520–900 | Panchromatic |
Landsat 8
The Landsat 8 raster type allows you to add raster data collected from Landsat 8, as part of the Landsat series of remote sensing satellites launched for the Landsat Data Continuity Mission. To learn more about this and Landsat higher-level science data products, see Landsat science and Landsat higher-level science data products.
Note:
When Landsat 8 Surface Reflectance and ARD data is added to a mosaic dataset, a function is available in the raster dataset properties to add a mask. This mask allows you to mask out unwanted image data values that can affect subsequent raster functions such as negative values.
Product type | Processing template |
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Landsat 8 Spectral range
Tag | Band order | Wavelength (nm) | Description |
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MS | 1 | 430–450 | Coastal Aerosol |
MS | 2 | 450–510 | Blue |
MS | 3 | 530–590 | Green |
MS | 4 | 640–670 | Red |
MS | 5 | 850–880 | Near infrared |
MS | 6 | 1570–1650 | Shortwave infrared 1 |
MS | 7 | 2110–2290 | Shortwave infrared 2 |
MS | 8 | 1360–1380 | Cirrus |
Thermal | 1 | 10600–11190 | Thermal Infrared 1 |
Thermal | 2 | 11500–12510 | Thermal Infrared 2 |
Pan | 1 | 500–680 | Panchromatic |
Landsat 9
The Landsat 9 raster type allows you to add raster data collected from Landsat 9, the latest in the Landsat series of remote sensing satellites started as part of the Landsat Data Continuity Mission.
To learn more about this and Landsat higher-level science data products, see Landsat science and Landsat higher-level science data products.
Product type | Processing template |
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Landsat 9 Spectral range
Tag | Band order | Wavelength (nm) | Description |
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MS | 1 | 430–450 | Coastal Aerosol |
MS | 2 | 450–510 | Blue |
MS | 3 | 530–590 | Green |
MS | 4 | 640–670 | Red |
MS | 5 | 850–880 | Near infrared |
MS | 6 | 1570–1650 | Shortwave infrared 1 |
MS | 7 | 2110–2290 | Shortwave infrared 2 |
MS | 8 | 1360–1380 | Cirrus |
Thermal | 1 | 10600–11190 | Thermal Infrared 1 |
Thermal | 2 | 11500–12510 | Thermal Infrared 2 |
Pan | 1 | 500–680 | Panchromatic |
MAXAR (Analysis-ready data)
Analysis-ready data (ARD) is preprocessed time-series stacks of imagery that you can use for change detection, mapping, and monitoring. These datasets provide usable content for feature extraction and faster processing for analytic workflows. ARD datasets are currently produced from data collected by the satellites from the Maxar constellation consisting of WorldView-2 and GeoEye-1.
Product type | Processing templates |
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Band information is based on what satellite the data has been acquired from. This will be either GeoEye-1 or WorldView-2.
For more information, refer to MAXAR product specification.
NCDRD
NCDRD is an acronym for NITF Version 2.1 Commercial Dataset Required Document. The NCDRD raster type allows you to add NITF images that follow NCDRD specifications into mosaic datasets. This raster type supports NCDRD products from many satellites: GeoEye-1, IKONOS, QuickBird, WorldView-1, and WorldView-2.
Product type | Processing templates |
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The Default processing template adds and groups data in all of the processing templates that apply. A field is added to the attribute table named Tag, which identifies within which group each band belongs:
- Pan—Panchromatic
- MS—Multispectral
- Thermal—Thermal Bands
Images added to a mosaic dataset via the NCDRD raster type will have metadata columns extracted from the NITF header as well as key metadata from satellite sensors, such as Sun Azimuth and Sun Elevation.
PlanetScope
PlanetScope is a satellite constellation that consists of 130 satellites capturing images of the earth’s land surface daily. The constellation consists of multiple launches of groups of individual CubeSat satellites.
Based on the sensor instrument used, the data acquired from the constellation consists of four-band or five-band multispectral imagery:
- Four bands—Red, green, blue, and near infrared bands
- Five bands—Red, green, blue, and near infrared bands and an additional RedEdge band
Product type | Processing templates |
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For more information, refer to Planet imagery product specification.
Pléiades
The Pléiades raster type allows you to add raster data collected from the Pléiades satellite sensor. To learn more about this sensor, see Airbus Defence and Space.
Product type | Processing templates |
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Pléiades spectral range
Tag | Band order | Wavelength (nm) | Description |
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MS | 1 | 450–530 | Blue |
MS | 2 | 510–590 | Green |
MS | 3 | 620–700 | Red |
MS | 4 | 775–915 | Near infrared |
Pan | 1 | 450–530 | Panchromatic |
Pléiades Neo
Pléiades Neo is a constellation of four identical high-resolution optical satellites. These were launched onboard the Arianespace's Vega rockets in 2021 and 2022. These satellites have a 10-year expected lifetime. They will ensure the provision of 30-centimeter resolution imagery until at least 2032, and consequently, the continuity of Airbus Intelligence's high standard geoinformation services.
The Pléiades Neo constellation offers a combination of the panchromatic (30-centimeter product resolution) and multispectral (1.2-meter product resolution) bands. The images can be visualized as either black-and-white natural colors, false colors, or merged product (pan-sharpened color image) with the resolution of a panchromatic image.
To learn more about Pleiades Neo, see Airbus Defence and Space.
Product type | Processing templates |
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Pléiades Neo spectral range
Tag | Band order | Wavelength (nm) | Description |
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MS | 1 | 400-450 | Deep Blue |
MS | 2 | 450–520 | Blue |
MS | 3 | 530–590 | Green |
MS | 4 | 620–690 | Red |
MS | 5 | 700-750 | RedEdge |
MS | 6 | 770–880 | Near infrared |
Pan | 1 | 450–800 | Panchromatic |
SkySat
The SkySat-C generation satellite is a high-resolution Earth imaging satellite, first launched in 2016. They are part of the Planet constellation of satellites that are collecting thousands of square kilometers of imagery.
The following product types are supported:
Basic—The SkySat Basic Scene is imagery that is uncalibrated and in a raw digital number (DN) format. This is accompanied by rational polynomial coefficients (RPCs) to enable orthorectification, allowing you to geometrically correct the product yourself.
Ortho—The SkySat Ortho Scene is sensor and geometrically corrected. This product is projected to a cartographic map projection. The geometric correction uses fine digital elevation models (DEMs) with a post spacing of between 30 and 90 meters.
Product type | Processing templates |
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SkySat spectral range
Tag | Band order | Wavelength (nm) | Description |
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Pan | 1 | 450–900 | Panchromatic |
MS | 1 | 450–515 | Blue |
MS | 2 | 515–595 | Green |
MS | 3 | 605-695 | Red |
MS | 4 | 740–900 | Near infrared |
For more information, refer to the SkySat product specification.
QuickBird
The QuickBird raster type allows you to add raster data collected from the QuickBird satellite sensor. The product types in the ArcGIS application map to the similar product name provided by the vendor. Standard Orthoready is also known as Ortho Ready Standard Imagery.
To learn more about this sensor, see DigitalGlobe .
Product type | Processing templates |
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Spectral range
Tag | Band order | Wavelength (nm) | Description |
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Pan | 1 | 450–900 | Panchromatic |
MS | 1 | 450–520 | Blue |
MS | 2 | 520–600 | Green |
MS | 3 | 630–690 | Red |
MS | 4 | 760–900 | Near infrared |
RapidEye
The RapidEye raster type allows you to add raster data collected from the RapidEye satellite sensors. To learn more about this sensor, see Planet Labs.
Product type | Processing template |
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Spectral range
Tag | Band order | Wavelength (nm) | Description |
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MS | 1 | 440–510 | Blue |
MS | 2 | 520–590 | Green |
MS | 3 | 630–685 | Red |
MS | 4 | 690–730 | RedEdge |
MS | 5 | 760–850 | Near infrared |
Sentinel-2
Sentinel-2 spacecraft has a Multi-Spectral Instrument (MSI) that collects data in spectral bands spanning from the visible and the near infrared to the shortwave infrared spectra at three different resolutions:
- 4 bands at 10 meters
- 6 bands at 20 meters
- 3 bands at 60 meters
Sentinel-2 MSI data is available as different product types and is systematically processed from Level 0 to Level 1C and Level 2A. Currently ArcGIS supports Level 1C and Level 2A products.
Level1—This corresponds to Level 1C processing level. The product results from using a digital elevation model (DEM) to project the image in cartographic coordinates. Per-pixel radiometric measurements are provided in Top of Atmosphere (TOA) reflectance with all parameters to transform them into radiance. Level 1C products are resampled with a constant Ground Sampling Distance (GSD) of 10, 20, and 60 meters, depending on the native resolution of the different spectral bands. In Level 1C products, pixel coordinates refer to the upper left corner of the pixel.
Level2—This corresponds to Level 2A processing level, which consists of scene classification and atmospheric correction applied to Level-1C orthoimage product. Level-2A is an Orthorectified Bottom-Of-Atmosphere (BOA) reflectance product. Level-2A products are resampled similar to Level-1C products with a constant GSD (Ground Sampling Distance) of 10m, 20m, and 60m according to the native resolution of the different spectral bands. The Scene Classification data is supported as a raster product.
To learn more about this sensor, see European Space Agency.
Since the Sentinel-2 Level 1C MSI data is distributed in three different resolutions, ArcGIS generates three different types of composite products based on the resolutions.
Product type | Processing templates |
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Spectral range
Tag | Band order | Wavelength (nm) | Description |
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Multispectral-60m | 1 | 433–453 | B1 |
Multispectral-10m | 1 | 458–522 | B2 |
Multispectral-10m | 2 | 543–577 | B3 |
Multispectral-10m | 3 | 650–680 | B4 |
Multispectral-20m | 1 | 698–712 | B5 |
Multispectral-20m | 2 | 733–747 | B6 |
Multispectral-20m | 3 | 773–793 | B7 |
Multispectral-10m | 4 | 784–899 | B8 |
Multispectral-20m | 4 | 855–875 | B8A |
Multispectral-60m | 2 | 935–955 | B9 |
Multispectral-60m | 3 | 1360–1390 | B10 |
Multispectral-20m | 5 | 1565–1655 | B11 |
Multispectral-20m | 6 | 2100–2280 | B12 |
Sentinel-3
Sentinel-3 is the European Space Agency's (ESA) Earth Observation Satellite launched as part of the Copernicus program, which is jointly managed by European Organisation for the Exploitation of Meteorological Satellites (EUMETSAT). It is mainly intended to support ocean forecasting systems, environmental and climate monitoring, and maritime safety services by measuring sea surface topography, sea and land surface temperature, and ocean and land surface color.
ArcGIS Pro supports the following Sentinel-3 data products:
- OLCI (Ocean and Land Colour Instrument) has 21 spectral bands (in the range of 400 nm to 1020 nm) with wavelengths ranging from the optical to the near infrared at a spatial resolution of 300 m. OLCI scans the ocean and land surface, provides information on the atmosphere by measuring water vapor absorption, aerosol levels, and chlorophyll absorption, and contributes to climate study.
OLCI products are classified into the following product types:
- Level 1—Top of Atmosphere (TOA) Radiance
- Level 2—Land & Atmosphere and Ocean & Atmosphere
- Rectified reflectance for the band O10 (RC681) and band O17 (RC865) : File rc_ogvi.nc in the land processing data.
- SLSTR (Sea and Land Surface Temperature Radiometer) determines sea and land surface temperatures in nine spectral bands with two additional bands for fire monitoring to support global climate monitoring and change detection. The first six bands are VNIR (bands 1 to 3) and SWIR (bands 4 to 6) with a spatial resolution of 500 m, and all the other bands have a spatial resolution of 1 km.
SLSTR products are classified into the following gridded product types:
- Sea Surface Temperature
- Land Surface Temperature
- BIOMI product. GlobCover surface classification code (biome)
- Brightness temperature product
- Radiance product
- Fire Detection, FRP product
- Synergy (OLCI + SLSTR) is a combination of the OLCI and SLSTR products at a spatial resolution of 1 km. Its main objective is to monitor the land use and provide information related to the study of climate and vegetation.
- Aerosol Angstrom Exponent at 550 nm
- Aerosol Optical Thickness at 550 nm
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To learn more about the other product types and this sensor, see the European Space Agency website.
SPOT 5
The SPOT 5 raster type allows you to add raster data collected from the SPOT 5 satellite. To learn more about this sensor, see Airbus Defence and Space.
Three SPOT 5 products are supported:
- Level 1A—This product has had some radiometric correction applied to fix distortions due to differences in the sensitivity of the elementary detectors of the sensor. Use this product with the Orthorectify processing template and specify a DEM in the raster type's properties.
- Level 2A—This product has had the same radiometric correction as applied in the Level 1A product and has been georeferenced to a UTM WGS84 projection (without using ground control points). You can use this product with the Panchromatic, Multispectral, Pseudocolor, or Pansharpen processing templates.
- SPOTView Ortho—This product has had the same radiometric correction as applied in the Level 1A product and has been orthorectified based on ground control points and a digital elevation model to eliminate distortions due to relief. You can use this product with the Panchromatic, Multispectral, Pseudocolor, or Pansharpen processing templates.
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Use the Pseudocolor processing template to view the SPOT imagery as a natural color image.
Spectral range
Tag | Band order | Wavelength (nm) | Description |
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MS | 1 | 500–590 | Green |
MS | 2 | 610–680 | Red |
MS | 3 | 790–890 | Near infrared |
MS | 4 | 1580–1750 | Shortwave infrared |
Pan | 1 | 510–730 | Panchromatic |
Caution:
The SPOT DIMAP GeoTIFF product has a unique rearrangement of the band order, which allows you to open it directly in applications and see a standard false color image; however, the metadata references have not been rearranged. This can create some difficulty when you are trying to define specific functions, such as NDVI, because the near infrared band will be band 1 and not band 3. The raster type attempts to account for this modification; however, there may be unique cases where the metadata and file format are not designed as expected.
Spectral range | Metadata reference | DIMAP GeoTIFF |
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Blue | n/a | n/a |
Green | 1 (or XS 1) | 3 |
Red | 2 (or XS 2) | 2 |
NIR | 3 (or XS 3) | 1 |
SWIR | 4 (or XS 4 or SWIR) | 4 |
For more information, see Airbus Defence and Space.
SPOT 6 and SPOT 7
The SPOT 6 and SPOT 7 raster types allow you to add raster data collected from the SPOT 6 and SPOT 7 satellites. To learn more about this sensor, see Airbus Defence and Space.
There are various products supported by SPOT 6 and SPOT 7.
Product type | Processing templates |
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Spectral range
Tag | Band order | Wavelength (nm) | Description |
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MS | 1 | 450–520 | Blue |
MS | 2 | 530–590 | Green |
MS | 3 | 625–695 | Red |
MS | 4 | 760–890 | Near infrared |
Pan | 1 | 450–745 | Panchromatic |
SuperView-1
The SuperView-1 or GaoJing-1 constellation consists of four Chinese commercial remote sensing satellites operated by Beijing Space View Tech Co Ltd. The main objective of the program is to provide data to be applied in defense and intelligence, land and forestry management, high-accuracy mapping, security, and maritime programs.
These satellites are the first very high-resolution Earth observation spacecrafts, designed in China. They collect imagery of both panchromatic (0.5 m) and multispectral (2 m) resolution with the 60 km x 70 km single scene maximum.
Product type | Processing templates |
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SuperView-1 spectral range
Tag | Band order | Wavelength (nm) | Description |
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Pan | 1 | 450–890 | Panchromatic |
MS | 1 | 450–520 | Blue |
MS | 2 | 520–590 | Green |
MS | 3 | 630-690 | Red |
MS | 4 | 770–890 | Near infrared |
For more information, refer to SpaceWill .
TH-01
TH-01 is the first Chinese transmission type satellite. Launched on August 24, 2010, TH-01 has a triple stereo surveying and mapping sensor and a high-resolution multispectral sensor. It collects triplet stereo images, high-resolution images, and multispectral images globally. TH-01 is widely used in science research, land resource research, surveying, and mapping. The data comes as a Level 1 and Level 2 product.
Spectral range
Tag | Band order | Wavelength (nm) | Description |
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Pan-FWD | 1 | 510–690 | Pan forward |
Pan-BWD | 1 | 510–690 | Pan backward |
Pan-NAD | 1 | 510–690 | Pan nadir |
MS | 1 | 430–520 | Blue |
MS | 2 | 520–610 | Green |
MS | 3 | 610–690 | Red |
MS | 4 | 760–900 | Infrared |
Product type | Processing templates |
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Vision-1
Vision-1 provides 0.9m resolution imagery in the panchromatic band, and 3.5m in the multispectral bands (NIR, RGB), with a 20.8km swath width.
Launched on 16th September 2018, Vision-1 provides complementary imaging capacity to the existing Airbus Earth observation constellation, delivering orthorectified products with standard resolution up to 87 cm.
To learn more about Vision-1, see AIRBUS.
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Vision-1 spectral range
Tag | Band order | Wavelength (nm) | Description |
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MS | 1 | 450-530 | Blue |
MS | 2 | 510-590 | Green |
MS | 3 | 620–700 | Red |
MS | 4 | 775-915 | Near infrared |
Pan | 1 | 450–530 | Panchromatic |
WorldView-1
The WorldView raster types allow you to add raster data collected from the WorldView-1, WorldView-2, or WorldView-3 satellite sensors. To learn more about these sensors, see Maxar.
Product type | Processing templates |
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WorldView-1 spectral range
Tag | Band order | Wavelength (nm) | Description |
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Pan | 1 | 400–900 | Panchromatic |
WorldView-2
The WorldView raster types allow you to add raster data collected from the WorldView-1, WorldView-2, or WorldView-3 satellite sensors. To learn more about these sensors, see Maxar.
Product type | Processing templates |
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WorldView-2 spectral range
Tag | Band order | Wavelength (nm) | Description |
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Pan | 1 | 450–800 | Panchromatic |
MS | 1 | 400–450 | Coastal blue |
MS | 2 | 450–510 | Blue |
MS | 3 | 510–580 | Green |
MS | 4 | 585–625 | Yellow |
MS | 5 | 630–690 | Red |
MS | 6 | 705–745 | RedEdge |
MS | 7 | 770–895 | Near infrared 1 |
MS | 8 | 860–1040 | Near infrared 2 |
WorldView-3
The WorldView raster types allow you to add raster data collected from the WorldView-1, WorldView-2, or WorldView-3 satellite sensors. To learn more about these sensors, see Maxar. Currently, the raster type for WorldView-3 only includes support for the visible, near infrared, and shortwave infrared (SWIR) bands, but not for CAVIS.
Product type | Processing templates |
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WorldView-3 spectral range
Tag | Band order | Wavelength (nm) | Description |
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Pan | 1 | 450–800 | Panchromatic |
MS | 1 | 400–450 | Coastal blue |
MS | 2 | 450–510 | Blue |
MS | 3 | 510–580 | Green |
MS | 4 | 585–625 | Yellow |
MS | 5 | 630–690 | Red |
MS | 6 | 705–745 | RedEdge |
MS | 7 | 770–895 | Near infrared 1 |
MS | 8 | 860–1040 | Near infrared 2 |
SWIR | 1 | 1195–1225 | Shortwave infrared 1 |
SWIR | 2 | 1550–1590 | Shortwave infrared 2 |
SWIR | 3 | 1640–1680 | Shortwave infrared 3 |
SWIR | 4 | 1710–1750 | Shortwave infrared 4 |
SWIR | 5 | 2145–2185 | Shortwave infrared 5 |
SWIR | 6 | 2185–2225 | Shortwave infrared 6 |
SWIR | 7 | 2235–2285 | Shortwave infrared 7 |
SWIR | 8 | 2295–2365 | Shortwave infrared 8 |
WorldView-4
WorldView-4, is a third generation commercial Earth observation satellite that has a maximum resolution of 31 cm. These are similar imagery as WorldView-3, the highest resolution commercially available at the time of its launch.
Currently ArcGIS supports the View-Ready/Standard Orthoready (OR2A) product and the System-Ready/Basic (1B). To learn more about these sensors, see Maxar.
Product type | Processing templates |
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WorldView-4 spectral range
Tag | Band order | Wavelength (nm) | Description |
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Pan | 1 | 450–800 | Panchromatic |
MS | 1 | 450-510 | Blue |
MS | 2 | 510-580 | Green |
MS | 3 | 655-690 | Red |
MS | 4 | 780-920 | Near infrared |
ZY02C HRC
The ZY02C HRC raster type allows you to add raster data collected from the ZY-1 02C satellite.
The ZY02C HRC sensor has two product types:
- Level 1A—This product has had radiometric correction but no geometric correction.
- Level 2A—This product has been radiometric corrected and georeferenced.
Product type | Processing templates |
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Spectral range
Tag | Band order | Wavelength (nm) | Description |
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HRC1 | 1 | 450–950 | Panchromatic |
HRC2 | 1 | 450–950 | Panchromatic |
HRC | 1 | 450–950 | Panchromatic |
ZY02C PMS
The ZY02C PMS raster type allows you to add raster data collected from the ZY-1 02C satellite.
Product type | Processing templates |
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Spectral range
Tag | Band order | Wavelength (nm) | Description |
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Pan | 1 | 510–850 | Panchromatic |
MS | 1 | 520–590 | Green |
MS | 2 | 630–690 | Red |
MS | 3 | 770–890 | Near infrared |
ZY3-CRESDA
The ZY3-CRESDA raster type allows you to add raster data collected from the ZY-3 satellite, which is distributed by China Center for Resources Satellite Data and Application (CRESDA).
Product type | Processing templates |
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Note:Other types of products produced by CRESDA can be supported by using the Raster Dataset or Table type. |
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Spectral range
Tag | Band order | Wavelength (nm) | Description |
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Pan FWD | 1 | 500–800 | FWD-Panchromatic |
Pan BWD | 1 | 500–800 | BWD-Panchromatic |
Pan | 1 | 500–800 | Panchromatic |
MS | 1 | 430–520 | Blue |
MS | 2 | 520–600 | Green |
MS | 3 | 630–690 | Red |
MS | 4 | 760–900 | Near infrared |
ZY3-SASMAC
The ZY3-SASMAC raster type allows you to add raster data collected from the ZY-3 satellite and distributed by Satellite Surveying and Mapping Application Center (SASMAC).
Product type | Processing templates |
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Note:Other types of product produced by SASMAC can be supported by using the Raster Dataset or Table type. |
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Spectral range
Tag | Band order | Wavelength (nm) | Description |
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Pan FWD | 1 | 500–800 | FWD-Panchromatic |
Pan BWD | 1 | 500–800 | BWD-Panchromatic |
Pan | 1 | 500–800 | Panchromatic |
MS | 1 | 430–520 | Blue |
MS | 2 | 520–600 | Green |
MS | 3 | 630–690 | Red |
MS | 4 | 760–900 | Near infrared |