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Tetracam Image File Formats
In order to create images that deliver
consistently-reproducible and scientifically-valid results, every
pixel in a Tetracam image is generated with high spectroscopic
accuracy. Radiation levels captured by Tetracam multispectral cameras are
precisely represented by digital codes that are stored in three native file formats (8-bit Raw, 10-Bit Raw
and 10-Bit DCM). Each format is lossless providing maximum image
fidelity. Each is user selectable through camera
menu configuration settings. The software that is included with
each multispectral camera, PixelWrench2, enables conversion of native file formats to
standard image formats such as BMP, JPEG, PNG, WMF and TIFF.
ADC RAW files consist of collections of
raw pixel values (digital numbers) and embedded data that includes
a GPS sentence (if a GPS receiver was connected to the NDVI camera),
exposure time and camera serial number. ADC DCM files comprise the
same data plus image thumb-nails organized in a proprietary
losslessly compressed format.
In RAW or DCM formats, the pixel values must be
processed to yield a “false color” bitmap in which the received
near-infrared radiation is placed on the red bit plane of the
image, the received red radiation is placed on the green bit plane
and the received green radiation is placed on the blue bit plane
of the image. The resulting "False Color" image shows the
magenta-colored vegetation familiar to most users of
multi-spectral images (see example below). Once the false color
image is available, PixelWrench2 can extract images representing
vegetation indices such as the Normalized Difference Vegetation
Index or NDVI
(see second example below).
Vegetation indices such as NDVI more
clearly quantify the subtle variations in the colors that are present in
an image. PixelWrench2 enables users to select their
own color values to represent each gradation in NDVI values in a
legend that is shown immediately adjacent to the NDVI image. The
legend shows the NDVI values that each color represents and the
percentage of the image that possesses that particular NDVI value. This
legend makes it easier for users to spot changes in NDVI values
that occur in a field and are represented in images captured at different times.
Tetracam Micro-MCA systems also produce
RAW and DCM files. As each camera is loaded with a single
filter, Micro-MCA image files do not require color processing. The pixel
values in Micro-MCA files represent the digital number produced by
the sensor when exposed to reflected radiation of a specific
center wavelength and bandwidth. The amount of radiation
captured (and so, the digital number stored for each pixel)
depends upon the selected size of the lens aperture (f-stop)
and/or the image exposure time.
Micro-MCA
systems may be
equipped with an
Incident Light Sensor that
records the total amount of radiation that is illuminating the
captured scene at the wavelengths monitored by the system. PixelWrench2
may then be used to show images with pixel
values that are expressed in terms of absolute reflectance values at those
wavelengths (i.e., the
fraction of incident radiation that is actually being reflected
back to the camera for each pixel in the image) rather than in
terms that are more susceptible to changes due to camera setting
or ambient lighting variations. |
