Supported Data Types Background
This topic provides further instructions on opening various file formats.
Airbus Defence & Space Files
SPOT and Pleiades data files are available in a mosaic tiled format, as well as NITF format. Use File > Open and select a .til file in a product directory to open the tiled dataset. Select individual .ntf files to open the images as standard NITF files, preserving NITF-specific metadata tags.
ADS40 and ADS80 Files
ADS40 and ADS80 are the Airborne Digital Sensor instruments developed by Leica Geosystems. They can acquire panchromatic or multispectral imagery.
The following ancillary files are required for ENVI to automatically compute rational polynomial coefficient (RPC) map information so that the data are georeferenced and ready for orthorectification or DEM extraction. Be sure to put these ancillary files in the same directory as the image file (.tif):
- ADS header file (*.ads)
- Camera calibration file (*.cam)
- Meta information support file in Socet Support File Format (*.sup)
- Orientation data file (*.odf)
- Orientation data file after bundle adjustment (*.adj)
The *.ads, *.cam, and *.sup files must exist, and either *.odf or *.adj must exist. If both of the latter exist, then the *.adj file is used over the *.odf file because the *.adj file is assumed to be more accurate.
If any of the required ancillary files are missing, ENVI opens the ADS40 or ADS80 file as a regular TIFF file and does not calculate RPC map information.
ALOS PALSAR Files
ENVI reads the following products. Supported operational modes include ScanSAR (1.1), fine-beam, single polarization (HH or VV), dual polarization (HH+HV or VV+VH), and full polarization (HH+HV+VH+VV).
ALOS-1
- Level 1.1 (complex) imagery, including Amplitude, Q (imaginary or in-phase), and I (real or quadrature) components for each transmit/receive polarization pair (for example, HH)
- Level 1.5 georeferenced Amplitude imagery for each transmit/receive polarization pair
ALOS-2
- Level 1.1 (complex) imagery, including Amplitude, Q (imaginary or in-phase), and I (real or quadrature) components for each transmit/receive polarization pair.
Note: ENVI does not read ALOS-2 Level 1.1 Ultra Fine-Beam Single (UBS) polarization data in CEOS format. Use the ENVI® SARscape Basic or Interferometry (InSAR/DInSAR) Module to read this type of data.
- Level 1.5 georeferenced Amplitude, 2.1, and 3.1 imagery for each transmit/receive polarization pair
In all cases, use the File > Open or File > Open As > Radar Sensors > ALOS-PALSAR menu option and select a volume file (VOL*) or leader file (LED*).
Use the ENVI SARscape modules to read ALOS-2 Level 1.1 data.
Annotation Files
From .ann files, text, square/rectangle, circle/ellipse, polygon, polyline, arrow, symbol, and picture annotation items are supported. Map scale bars, image color ramp, map key, declination arrow and plot annotation items are not supported and therefore will not display if present in the annotation file.
ASCII Files
You can open an ASCII file as an image. ENVI reads each ASCII value as a pixel DN value and skips lines at the top of the file that have non-numeric characters or that start with a semicolon. The ASCII values must be separated by white spaces or commas, and the image data must be in the format of an image array. You will be prompted to enter the interleave type (BSQ, BIL, or BIP), data type, and number of bands. Also see the ASCII Coordinate Conversion tool.
ATSR Files
ENVI reads gridded brightness temperature/reflectance (GBT) data, the gridded browse (GBROWSE) data, and the gridded sea surface temperature (GSST) data. ENVI automatically opens all the image product contents within the file. For forward view and nadir view images, the band names contain FV or NV respectively. The band names also supply the image units.
AVHRR Files
ENVI reads the following types of AVHRR data:
- KLMN Level-1B formatted files that are produced and distributed by NOAA only. It reads files that do not have TBM or ARS headers. It reads 10-bit packed format data as integers, uncompressed formats as integers, and 8-bit format data as bytes. You can use the embedded information to georeference the data.
- SHARP European Space Agency-format AVHRR data, including the five spectral bands plus latitudes/longitudes, coastlines, and state boundaries. These last three items are provided as separate mask bands.
- Quorum receiving station; data from this station lacks the required header information that enables you to calibrate or georeference the data. Quorum data files are typically 16-bit High Resolution Picture Transmission (HRPT) files with two header frames.
To view an AVHRR header, select Raster Management > Data-Specific Utilities > AVHRR Display Header from the Toolbox. The AVHRR File Information dialog appears. To save the header information to a text file, select File > Save Text to ASCII from the AVHRR File Information dialog.
See the following related topics:
CADRG Files
To open individual frame files, use the NITF file reader. You must have a ENVI NITF Module license to read CADRG files. To save raster data to CADRG file format, use the Toolbox option Raster Management > Save File as CADRG.
CIB Files
To open individual frame files, use the NITF file reader. You must have a ENVI NITF Module license to read CIB files. To save raster data to CIB file format, use the Toolbox option Raster Management > Save File as CIB.
DigitalGlobe/Maxar Analysis Ready Data (ARD) Files
ENVI reads GeoEye-1 and WorldView-2 ARD files from DigitalGlobe / Maxar. ARD files are delivered as time-series, preprocessed image stacks. Select File > Open or File > Open As > Optical Sensors > DigitalGlobe / Maxar from the menu bar and select a *-request.json file. ENVI creates a separate raster series for each of the following image types:
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Visual (RGB)
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Multispectral
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Panchromatic
See Animate Raster Series and NITF Image Segments for instructions on using the Series Manager.
The visual RGB dataset is displayed by default. For multispectral datasets, some of the frames/dates in the raster series can be from GeoEye-1 (four bands), while others can be from WorldView 2 (eight bands). If you use the Load Current Raster option to load individual frames into the ENVI view, be aware that each frame may have a different number of bands.
Each frame of the raster series is a virtual mosaic constructed from different groups of input files. As a result, a given frame may have some overlapping of input images and a mix of different pixel resolutions. The base projection will be the same throughout a frame, regardless of the projection types of the inputs.
With multispectral raster series, pixel values are in units of surface reflectance, scaled from 0 to 1.
To read ARD files with the ENVI API, use the ENVIRasterSeries object.
DigitalGlobe/Maxar GeoEye, Legion, QuickBird, WorldView Files
GeoEye-1, QuickBird, and WorldView data files are available in a mosaic tiled format, as well as NITF and GeoTIFF. Within a given product folder (for example, *P001_PAN or *P001_MUL), select File > Open from the menu bar and select the .TIL file. ENVI reads the associated metadata, particularly the spectral metadata required for radiometric calibration. Opening individual NITF files will only read the images as generic NITF files without the associated metadata.
When using tools such as NNDiffuse Pan Sharpening, open the multispectral dataset (.til) separately from the panchromatic dataset (.til).
Legion data files are available in a mosaic tiled format, as well as NITF and GeoTIFF. Within a given product folder (for example, *P001_PAN or *P001_MUL), select File > Open from the menu bar and select the .TIL or .XML file. ENVI reads the associated metadata, particularly the spectral metadata required for radiometric calibration. Opening individual NITF files will only read the images as generic NITF files without the associated metadata.
WorldView-3 shortwave-infrared (SWIR) bands are grouped separately from the multispectral and panchromatic bands. To open the SWIR data, select the .til file in the *P001_SWR folder.
You can combine different band groups into one image by using the Build Layer Stack tool or the ENVIMetaspectralRaster API routine.
DubaiSat-2 Files
Use the File > Open menu option and select a .tif file to open TIFF imagery, or select a .xml file to open TIFF imagery with associated metadata. Or, use the File > Open As > Optical Sensors > DubaiSat > DubaiSat-2 menu option and select a .xml file to open.
ECRG Files
Use the File > Open option, navigate to an ECRG archive, and open the TOC.xml file. The Select ECRG Dataset dialog lists all available datasets in the middle column. Each dataset may consist of multiple NITF frames. The left panel shows metadata associated with the archive. The right panel shows metadata describing the map type, zone, number of frames, and spatial extent of the selected dataset. The ECRG format is described in the MIL-PRF-32283 specification document.
Select a dataset and click Open Selected. All frames in the dataset load as a single RGB image layer. A shapefile describing each frame is loaded on top of the raster layer. When displayed at full extent, the image appears grey. Zoom in further to see the imagery.
Tip: From the ENVI menu bar, select File > Open World Data > Coastlines to view a world boundary map. This helps identify where the ECRG dataset is located.
The Status bar in the ENVI application displays the highest security level out of all displayed frames.
ECRG Legends
Datasets may have associated legends that describe the features of the maps:
- Right-click on the image layer in the Layer Manager and select View Metadata. Then click the Legends node to view more information about the associated legends.
- Right-click on the image layer in the Layer Manager and select Load Legend. Select the legends to load, and click OK. The legends are listed in the Data Manager. From here, you can load the legends to the display as needed.
EMIT Files
ENVI reads EMIT hyperspectral imagery produced by JPL with an instrument on the International Space Station. Use the File > Open or File > Open As > Optical International Space Station > EMIT 1B/2A Hyperspectral menu option and select an .nc file to open.
The data is stored in a single HDF5 file (*.nc). Opening the file in ENVI opens two rasters. Using Envi.OpenRaster() will return two rasters:
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The first raster will be either a radiance or reflectance cube of data with 285 spectral bands along with wavelengths and FWHM values. The reflectance data also comes with a bad bands. The radiance data is Level 1B and the reflectance data is Level 2A.
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The second raster contains two GLT bands (“GLT X” and “GLT Y”) which can be used as input to the ENVI Toolbox Geometric Correction> Georeference from GLT tool. The hyperspectral data (radiance or reflectance) opens with GLT Map information using a lat/lon value for every pixel. The GLT raster has a standard geographic projection so that when input into Georeference from GLT, the hyperspectral input bands are reprojected into the standard geographic projection.
EnMAP Files
ENVI reads EnMAP hyperspectral imagery from the German DLR Space Agency. Use the File > Open or File > Open As > Optical Sensors > EnMAP menu option and select an .xml file to open.
GOES-16 and GOES-17 Files
ENVI opens and displays the raw imagery and automatically applies gains and offsets to the data. It applies a geographic lookup table (GLT) to the imagery before displaying it. It also opens the data quality flag (DQF) metadata. You can use the Reproject GLT with Bowtie Correction tool to georeference the data.
GRIB Files
ENVI opens GRIB files with GRID_Simple and GRID_PNG packaging, in Regular_LL (Regular Geographic WGS-84 Latitude and Longitude Grids) only. If bands represent parameters with different acquisition times, the band names will include the times. Otherwise, the time for the entire dataset will be recorded in the acquisition time of the file metadata.
GRUS
ENVI reads GRUS L1C and L2A products. Use the File > Open As > Optical Sensors > GRUS menu option and select a .json file to open.
- MSI images have 5 meters of resolution and opens 5 bands (R,G,B, Red Edge, and Near Infrared)
- PAN images have 2.5 meters of resolution
Himawari-8 Files
ENVI opens Himawari-8 files in NetCDF-3 format, distributed by the Japanese Meteorological Agency. From the ENVI menu, select File > Open As > Optical Sensors > Himawari-8. The data is distributed with each of the 16 bands in separate NetCDF-3 files, all in the same directory. When the Open dialog appears, select any of the 16 *.nc files. ENVI combines the bands into three rasters, all in the same geographic location but with different resolutions:
- The 1 km resolution raster contains Albedo bands 1, 2, and 4.
- The 500 m resolution raster contains Albedo band 3.
- The 2 km resolution raster contains Albedo bands 5-6 and brightness temperature (TBB) bands 7-16.
These images already are calibrated to albedo and brightness temperatures in floating-point data, so you do not need to apply gains and offsets. ENVI locates the above bands within the same directory. If any bands are missing, ENVI attempts to open the images with the bands that are available, and the rasters above may be missing bands.
The images are georeferenced to a geographic lookup table (GLT) spatial reference. To reproject the image to a standard map projection, use the Reproject GLT with Bowtie Correction tool.
IKONOS Files
ENVI reads and displays IKONOS data in NITF and GeoTIFF formats. An individual GeoTIFF or NITF file may only contain one band of data, while another may contain a combination of multispectral bands.
- If you select the metadata.txt file, ENVI reads it as an IKONOS product and opens all associated bands of data. ENVI reads the available calibration and time metadata so that you can calibrate images or use the metadata in the ENVI application programming interface (API).
- If the metadata.txt file is not available and you select a GeoTIFF or NITF file, ENVI reads it as a generic GeoTIFF or NITF file.
- If there is only one GeoTIFF or NITF file available (containing all bands of data) and you select it, ENVI reads it as an IKONOS product and opens all associated bands.
- If there are multiple GeoTIFF or NITF files available (representing individual bands) and you select any file, ENVI reads it as a generic GeoTIFF or NITF file.
JPEG2000 Files
Select a .jp2 or .j2k file to open. ENVI reads map information from georeferenced JPEG2000 files in the following order of precedence:
- Map information in an ENVI header file (.hdr), if one is associated with the JPEG2000 file.
- GeoTIFF map information embedded in the UUID field of the JPEG2000 file.
- Geography Markup Language (GML) embedded in the gml.instance-data box of the JPEG2000 file.
Landsat Analysis Ready Data
ENVI reads Analysis Ready Data (ARD) from Landsat 4-9. The associated TIFF files can reside in one directory with one XML file or in separate subdirectories, each with its own XML file. The following list summarizes the different ARD products:
- Surface Reflectance (SR)
- Top of Atmosphere Reflectance/Angles/Brightness/Temperature (TOA)
- Provisional Surface Temperature (ST)
- Quality Assessment (QA)
To open a dataset, select File > Open from the ENVI menu bar and select a .XML file. If a directory contains a combination of these datasets, ENVI internally creates one metaspectral raster from them all. Open the Data Manager to see all of the bands that are available.
Landsat Level-3 Products
ENVI reads the Level-3 products listed below, from Landsat 4-8. The associated TIFF files can reside in one directory with one XML file or in separate subdirectories, each with its own XML file.
- Burned Area
- Dynamic Water Surface Extent
- Fractional Snow Covered Area
To open a dataset, select File > Open from the ENVI menu bar and select a .XML file. If a directory contains a combination of these datasets, ENVI internally creates one metaspectral raster from them all. Open the Data Manager to see all of the bands that are available.
Meteosat Files
ENVI reads Meteosat 2nd generation, Level 1.5 files and loads the three datasets included in the .nat file:
- 12-Band Disc View
- 1-Band High Resolution South
- 1-Band High Resolution North
Each dataset is correlated with its own Geographic Lookup Table (GLT). Before further processing, it is recommended to use Geometric Correction > Reproject GLT with Bowtie Correction from the Toolbox to properly geolocate the dataset or a subset of the dataset.
MODIS Files
ENVI reads MODIS Level 1B, 2, 3, or 4 files, including products MOD02 through MOD44 and MYD02 through MYD44. It extracts gain and offset values from the HDF metadata and applies them when converting 16-bit data to calibrated floating-point data. The resulting emissive and reflectance data do not have units. The units of the radiance data are W/m2/μm/sr.
For Level 1B files, values greater than 32767 (which indicate invalid data) are replaced by -1 when applying the gains and offsets.
Use the File > Open option to open the following MODIS products: M*D08*, M*D27HV, M*D27W, M*D43B1, M*D43B1C, M*D43B2, M*D43B2C, M*D43B3, M*D43B3C, M*D43C2, and M*DATML2.
You can georeference and correct MODIS Level-1B data for bowtie artifacts by selecting Geometric Correction > Reproject GLT with Bowtie Correction from the Toolbox. The MODIS imagery must have separate Latitude and Longitude Scientific Data Sets (SDSs). You must open the MODIS data first before starting the tool.
OGC GeoPackage Files
ENVI reads OGC GeoPackage files and displays vector feature as shapefiles. Select the feature(s) you wish to open and click OK. Any features in the GeoPackage file that cannot be opened or displayed by ENVI (such as multipatch vectors) will be listed in the Unsupported Features field.
PeruSat
ENVI reads PeruSat-1 products. Use the File > Open or File > Open As > Optical Sensors > PeruSat menu option and select a dim*.xml file to open.
PlanetScope
ENVI reads the following PlanetScope products:
- L1B Basic Scene (top of atmosphere radiance)
- L3B Ortho Scene (top of atmosphere radiance and surface reflectance)
- L3A Ortho Tile (radiometrically corrected, sensor corrected, and geometrically corrected)
This includes products acquired from the PS2.SD and PSB.SD next-generation sensors.
Use the File > Open or File > Open As > Optical Sensors > Planet > PlanetScope menu option and select a *_metadata.xml, *_metadata_clip.xml, or *_metadata.json file to open. The image data can be in either a TIFF or NITF (license required) file.
PRISMA Files
ENVI opens hyperspectral PRISMA (PRecursore IperSpettrale della Missione Applicativa) files in HDF-EOS5 format, distributed by the Italian Space Agency. From the ENVI menu bar, select File > Open As > Optical Sensors > PRISMA (ASI) and select a .he5 file to open. The data are available in four different processing levels:
- Level-1 digital numbers (DNs) and radiance
- Level-2B radiance
- Level-2C surface reflectance with atmospheric products
- Level-2D geocoded surface reflectance
ENVI will attempt to write several temporary files to the same directory as the data files. If this directory does not have write permissions, a message will appear, indicating that the files will be written to the ENVI Temporary Directory instead.
The Data Manager will open three rasters, each covering the same geographic area but providing different spectral coverage and spatial resolutions:
- VNIR 30-meter resolution (400-1010 nm, 66 bands)
- SWIR 30-meter resolution (920-2500 nm, 173 bands)
- Panchromatic 5-meter resolution
ENVI initially displays the VNIR raster only.
For Level-2C data, the Data Manager will also list additional atmospheric products: Water Vapour, Angstrom Experiment, Aerosol Optical Thickness, and Cloud Optical Thickness.
Level-1 rasters are georeferenced to a Geographic Lookup Table spatial reference. To reproject the rasters to a standard map projection, use the Reproject GLT with Bowtie Correction tool.
Level-2B, Level-2C, and Level-2D rasters support Rational Polynomial Coefficient (RPC) spatial references.
Proba-V Files
ENVI supports the following products:
- S1 top-of-canopy (TOC) and top-of-atmosphere (TOA)
- S10 TOC, including Normalized Difference Vegetation Index (NDVI)
From the menu bar, select File > Openand select an HDF5 file to open. Use the Data Manager to access the following rasters:
- VNIR (Blue, Red, NIR), if present
- SWIR, if present
- NDVI
- Quality, if present
Sentinel-1 GRD Files
ENVI supports Sentinel-1 GRD products. Level-1 Ground Range Detected (GRD) products consist of focused SAR data that has been detected, multi-looked, and projected to ground range using an Earth ellipsoid model. The ellipsoid projection of the GRD products is corrected using the terrain height specified in the product general annotation.
Sentinel-1 SLC Files
ENVI supports Sentinel-1 SLC products. Level-1 Single Look Complex (SLC) products are images in the slant range by azimuth imaging plane, in the image plane of satellite data acquisition. Each image pixel is represented by a complex (I and Q) magnitude value and therefore contains both amplitude and phase information. When opening a Level-1 SLC product, these five bands will be available: power, magnitude, phase, real, and imaginary.
Sentinel-2 Files
ENVI supports Sentinel-2 Level-1C and Level-2A products. Use File > Open or File > Open As > Optical Sensors > European Space Agency > Sentinel-2 and select an .xml file. Three rasters will be opened in the Data Manager, each covering the same geographic area but providing different resolution:
- 10 meter resolution (490; 560; 665; and 842 nanometer bands)
- 20 meter resolution (705; 740; 783; 865; 1,610; and 2,190 nanometer bands)
- 60 meter resolution (443; 945; and 1,375 nanometer bands)
Only the 10 meter raster will be auto displayed.
Sentinel-3 Files
Tutorial: Sentinel-3 Marine Data Tutorial.
ENVI supports the following Sentinel-3 products:
Ocean Colour and Land Instrument (OLCI)
Label |
Description |
OL_1_EFR |
Level-1 top-of-atmosphere (TOA) radiances for each view and each OLCI channel, 300 m resolution
|
OL_1_ERR |
Level-1 TOA radiances for each view and each OLCI channel, 1.2 km resolution
|
OL_2_LFR |
Level-2 land products at 300 m resolution. Land products include Global Vegetation Index (OGVI), Terrestrial Chlorophyll Index (OTCI), integrated water vapor (IWV) columns, and rectified reflectance for the 681 nm and 865 nm channels
|
OL_2_LRR |
Level-2 land products at 1.2 km resolution
|
OL_2_WFR |
Level-2 marine products at 300 m resolution. Marine products include reflectances in most channels, total backscattering coefficients, total absorption coefficients, algal pigment (chlorophyll) concentration from two different algorithms, total suspended matter (TSM) concentrations, diffuse attenuation coefficients, heated layer depth, water transparency, photosynthetically active radiation (PAR), aerosol Angström exponents, and IWV columns
|
OL_2_WRR |
Level-2 marine products at 1.2 km resolution
|
Sea and Land Surface Temperature Radiometer (SLSTR)
Label |
Description |
SL_1_RBT |
Level-1 top-of-atmosphere (TOA) radiances (0.5 km resolution) and brightness temperatures (1 km resolution)
|
SL_2_WCT |
Level-2 sea surface temperatures (SSTs); single and dual view, 2 and 3 channels; 1 km resolution
|
SL_2_WST |
Level-2P brightness temperatures, SSTs, sea ice fraction, and wind speed, 1 km resolution. SSTs are based on the Group for High Resolution Sea Surface Temperature (GHRSST) Level-2P specification.
|
SL_2_LST |
Level-2 land surface temperatures and associated parameters, 1 km resolution
|
SL_2_AOD |
Level-2 aerosol optical depth, 1 km resolution
|
Use the following menu options to open Sentinel-3 data. In all cases, open the .xml manifest file.
- File > Open
- File > Open As > Optical Sensors > European Space Agency > Sentinel-3 OLCI
- File > Open As > Optical Sensors > European Space Agency > Sentinel-3 SLSTR menu option and select a .xml file to open.
Use the Reproject GLT with Bowtie Correction tool to georeference the data.
Sentinel-3 products are freely available from the following Copernicus web sites:
SkySat Files
ENVI reads the following SkySat products from Planet:
- Basic Scene: Analytic, Analytic DN, L1A Panchromatic DN, Panchromatic
- Video: L1A Panchromatic DN
- Ortho Scene: Visual, Analytic DN, Analytic, Analytic Surface Reflectance (SR), Panchromatic, Pansharpened Multispectral
- Ortho Collect: Visual, Pansharpened Multispectral, Analytic, Analytic DN, Panchromatic, Panchromatic DN
- Analytic Collect
Use the File > Open or File > Open As > Optical Sensors > Planet > SkySat menu option and select the associated *_metadata.json file.
SkySat Legacy Products
ENVI reads older "legacy" SkySat products from Terra Bella / SkyBox Imaging:
- Image Frames: High-resolution imagery with detailed metadata and minimal geometric processing. Each image represents a single frame; there can be tens or hundreds of frames that cover the extent of a collection area.
- Geo Imagery: One image of the collection area for each product type: panchromatic, multispectral, and pan-sharpened. Each image has an associated RPC file. Use the RPC Orthorectification workflow to georeference these images. You must supply your own optional DEM and ground control points (GCPs).
Use the File > Open As > Optical Sensors > Planet > SkySat Legacy menu option and select the associated metadata file (*_metadata.txt). The Select SkySat File Parameters dialog provides the following options:
- Select a DEM File to Use: Choose a DEM file, or accept the default file GMTED2010.jp2 that is provided with the ENVI installation. This DEM is from the Global Multi-resolution Terrain Elevation Data 2010.
- Select a Geoid File To Use: Choose a geoid file, or accept the default file world_geoid_height_EGM96.img that is provided with the ENVI installation.
- Select Product: Choose the product to open. The choices are Panchromatic, Multispectral, or Pan Sharpened.
After you click OK, ENVI reprojects the imagery to a Geographic Lat/Lon WGS-84 coordinate system, using the DEM and geoid that you specify to perform a quick orthorectification.
The individual frames are displayed in the Image window and added to the Layer Manager. To create a single image from the frames, you need to use the Seamless Mosaic tool.
SRTM Files
ENVI opens single SRTM DEM files (.hgt) as ENVI image files. When multiple DEMs are available, ENVI automatically mosaics them into one ENVI image file. If the file contains missing data points, you are prompted to correct the missing values. If you click Yes to replace missing values, the -32768 values (which indicate missing data) are replaced by values interpolated from valid neighboring pixels. Select a new output filename, or output to memory. ENVI retains the original input file and creates a new file containing the interpolated data points.
STANAG 4676 Track Points Files
ENVI supports STANAG 4676 Track Points, Edition B. You can open one or many .xml Track Point files; press the Ctrl or Shift key as you select files to open multiple files. ENVI will create a shapefile that contains the points.
TerraSAR-X Files
ENVI supports TerraSAR-X complex and detected products. TerraSAR-X is a side-looking, x-based SAR based on active array antenna technology. When opening a complex product, these five bands will be available: power, magnitude, phase, real, and imaginary. When opening a detected product, one band is available.
TIFF Files
ENVI reads GeoTIFF files, GeoTIFF world files (.tfw), and the following TIFF formats:
- 1-bit
- 4-bit
- 8-bit (byte)
- 12-bit
- 16-bit signed integer
- 16-bit unsigned integer
- 32-bit signed long integer
- 32-bit unsigned long integer
- 32-bit floating point
- 32-bit double-precision floating point
Use ENVI Classic to read the following formats:
- 64-bit signed long integer
- 64-bit unsigned long integer
- Complex
- Double-precision complex
TIMS Thermal Files
ENVI assumes the data has 6 bands, 638 pixels, plus a 60 byte offset at the beginning of each line, and is in band-interleaved-by-line (BIL) storage order. Default wavelengths are entered into the header, and you can edit them as needed.
TripleSat Files
ENVI supports TripleSat/DMC3 Level 1A and Level 2A products, both in XML and DIMAP formats. Use the File > Open menu option and select a .xml or .dim file to open.
UrtheCast Theia Files
ENVI supports UrtheCast Theia products. Use the File > Open or File > Open As > Optical Sensors > UrtheCast Theia menu option and select a .xml file to open.
Ziyuan-1 ZY-1-02C and ZY-1-02D (ZY1E)
Use the File > Open As > Optical Sensors > CRESDA > ZY-1 option from the menu bar to open the files as follows:
- *.orientation.xml opens the MUX-PAN data product with metadata
- *.xml opens the HRC data product (images with two parallel cameras) with metadata
- *-MUX.xml opens multispectral data with metadata
- *-PAN.xml opens panchromatic data with metadata
Ziyuan-3A
Use the File > Open As > Optical Sensors > CRESDA > ZY-3 option from the menu bar to open the files as follows:
- *.orientation.xml opens the TLC data product (images with nadir, forward, backward view) with metadata
- *.xml opens multispectral data with metadata
- *-NAD.xml opens TLC nadir-view data with metadata