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. To learn more, see DMC International Imaging.

The metadata for L1R and L1T product types are stored within the DIMAP (.dim) files.

Use the Pseudo color processing template to view the DMCii imagery as a naturally colored image.

DMCii spectral range

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.

The FORMOSAT-2 products supported are the following:

• 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. This product can be used with any processing template and a DEM should be specified within 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). This product can be used 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. This product can be used with any processing template.

Spectral range

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 DigitalGlobe.

Spectral range

IKONOS

The IKONOS raster type allows you to add raster data collected from the IKONOS satellite sensor. To learn more about this sensor, see DigitalGlobe.

Spectral range

KOMPSAT-2

The KOMPSAT-2 raster type allows you to add raster data collected from KOMPSAT-2 (KOrean MultiPurpose SATellite). To learn more about this sensor, see Airbus Defence and Space.

The KOMPSAT-2 products are generated in KARI format and DIMAP format. The two KOMPSAT-2 product types are the following:

• 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).

Spectral range

Spectral range

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.

Use the Pseudo color processing template to view the Landsat 1–5 MSS imagery as a naturally colored image.

Spectral range

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, see Landsat science.

Spectral range

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, see Landsat science.

Spectral range

Landsat 8

The Landsat 8 raster type allows you to add raster data collected from Landsat 8, the latest in the Landsat series of remote sensing satellites started as part of the Landsat Data Continuity Mission. To learn more about this, see Landsat science.

Spectral range

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.

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 the group each band belongs within:

• 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, Sun Elevation, and so on.

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 .

Pléiades spectral range

Spectral range

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.

Spectral range

RADARSAT-2

RADARSAT-2 data can be added to a mosaic dataset using the RADARSAT-2 raster type. The RADARSAT-2 products consist of the Synthetic Aperture Radar (SAR) image or Signal data in addition to the metadata. The basic product generated by the RADARSAT-2 processor contains a product information file and image pixel data files. The RADARSAT-2 satellite differentiates the products by the beam mode and by the level of processing that has been applied to the data.

These datasets have information of the polarimetric data. The product information file for the various product types is encoded in XML format. The RADARSAT-2 raster type allows you to create a mosaic dataset where you can query the mosaic dataset attribute table for the imagery according to the metadata in the attribute table.

To learn more about this sensor, see MDA.

The following product types of RADARSAT-2 can be added using this raster type:

SLC is a complex product type where each pixel is represented by a complex value. When applying a Speckle filter on an SLC product, intensity (magnitude) of the pixel value is used.

There are two processing templates that can be used depending on the level of processing required.

• Raw—The data will be added without applying any functions. This is the default template and is used for basic visualization.
• Despeckle—The data will be added with the Speckle function applied. The output is a speckle-filtered, smoothed image.

The following are the polarizations available with RADARSAT-2 products:

• HH—The radar signals are transmitted horizontally and received horizontally.
• VV—The radar signals are transmitted vertically and received vertically.
• HV—The radar signals are transmitted horizontally and received vertically.
• VH—The radar signals are transmitted vertically and received horizontally.

The RADARSAT-2 product can be single, dual, or Quad polarized, depending on the beam mode. The beam modes are distinguished by a specific beam elevation angle and width used for transmitting and receiving signals. The various beam modes are the following:

• Single Beam—Standard, Wide, Fine, Multi-Look Fine, Ultra-Fine, Extended High, Extended Low, Standard Quad Polarization, and Fine Quad Polarization
• ScanSAR—ScanSAR Narrow and ScanSAR Wide
• Spotlight—Spotlight A

RapidEye

The RapidEye raster type allows you to add raster data collected from the RapidEye satellite sensors. To learn more about this sensor, see BlackBridge.

Spectral range

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 .

There are three SPOT 5 products 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. This product should be used with the Orthorectify processing template and a DEM should be specified within 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, Pseudo color, or Pan sharpen 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, Pseudo color, or Pan sharpen processing templates.

Use the Pseudo color processing template to view the SPOT imagery as a naturally colored image.

Spectral range

SPOT 6 and SPOT 7

The SPOT 6 and SPOT 7 raster types allow you to add raster data collected from the SPOT 6 or SPOT 7 satellites. To learn more about this sensor, see Airbus Defence and Space .

There are two products supported: ORTHO and PRIMARY.

Spectral range

WorldView-1, WorldView-2, and 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 DigitalGlobe. Currently, the raster type for WorldView-3 only includes support for the visible, near infrared, and short wave infrared (SWIR) bands, not CAVIS.

WorldView-1 spectral range

WorldView-2 and WorldView-3 supported spectral range

WorldView-3 spectral range

To create a naturally colored band combination, use the following:

• Red: band 5
• Green: band 3
• Blue: band 2

To create a color infrared band combination, use the following:

• Red: band 7
• Green: band 5
• Blue: band 3