The objective of this research is to further investigate factors that
may have significant influence on cotton color measurement but are not
considered in the current cotton color grading system. These factors
include the redness content (a) in cotton chroma and the presence of y
ellow spots and trash particles in cotton. The study is based on the c
olor data of the USDA physical standards for U.S. upland cotton and a
number of selected samples measured by the imaging colorimeter (CTC),
developed in the previous research, and a Minolta CR-210 colorimeter.
There are three major results in this study: first, the a content make
s up 10% to 33% of the chroma, varying primarily with the major color
category (white, Light spotted, spotted, tinged, and yellow stained).
Within the same category, a is less variable than yellowness b. An app
roximate +a range for each major color category is determined. Second,
CTC is less sensitive to the presence of spots and trash particles in
the sample than CR-210 because cre has a much larger viewing area. Th
ird, the influence of spots and trash on the cotton color measurements
depends on their sizes and colors in the sample. A change in cotton c
olor data made by spots and trash may lead to a change in color grade.
The computational removal of these regions from the sample image in C
TC is effective in minimizing the effects of spots and trash. In addit
ion, the paper introduces a new color diagram built on the measurement
s of reflectance-redness (R-d similar to a), which identifies the usef
ul role of a in cotton color grading.