Photographic Density Slicing
Photographic density slicing is a technique by which very small
differences in film density (shade of gray) may be separated
and displayed individually or together in various colors. A
normal human eye can separate only about 200 shades of gray,
but can distinguish about 20,000 hues, values, and chromas of
color (Estes and Simonett, 1975, p. 931). Electronic instruments
in normal use can detect density differences as small as 0.05,
and delta density of 0.01 has been achieved. When a particular
feature of interest has a specific spectral characteristic either
on multiband or panchromatic imagery and this spectral characteristic
or response differs even slightly from those of surrounding features,
density slicing can be used to bring out this feature wherever it
may exist in the image, at the same time suppressing the other
features. New applications and techniques are discussed by Ross (1976).
Color Additive Viewing
The successful operation of Landsat-1 and Landsat-2 has encouraged
widespread use of color additive viewing as an interpretation technique.
Color additive viewing may be done using either analog or digital
methods. In analog instruments, two or more transparencies are
registered and light of different color (controlled by filters) and
intensity is transmitted through the image and projected onto a
viewing screen or other display device. In digital devices, computer-
compatible tapes or discs are used to modulate a color television-type
cathode ray tube. In both the analog and digital systems, the inter-
preter "interacts" with the data to select the appropriate colors and
intensities for individual bands. The digital systems are more flexible
than optical instruments, and permit additional manipulation and extrac-
tion of statistical information from the data.
The theory behind optical color additive viewing is treated by Wenderoth
and Yost (1972, ch. 9) who also provide examples of the applications
(ch. 12). Many interactive digital systems that serve as color addi-
tive viewers also permit the analyst to use various enhancement and
level-slicing techniques to assist in image analysis.
Digital Image Processing and Analysis
Remote sensor data suitable for computer manipulation are obtained by
digitizing the analog electrical output of an optical-mechanical
scanner, television system, radar receiver, microwave radiometer,
or microdensitometer or other device that converts the densities of
photographs to an analog electrical signal.
Computer image processing is summarized by Billingsley, Gillespie,
and Goetz, (1975). According to them, digital image processing
techniques basically consit of rectification, cosmetic, and analysis
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