Location: Cotton Structure and Quality Research
Project Number: 6054-44000-075-05
Start Date: Jan 01, 2010
End Date: Dec 31, 2010
1. Constructing fibrograms of the projecting portions of the beards as used in High Volume Instrument (HVI). First, we will obtain signals for constructing fibrograms of beards as those used in HVI length test. This can be done by collecting raw signals either from HVI or from a scanner. We are developing a method for obtaining fibrograms by using image processing techniques to analyze images of fiber beards from a scanner. Then the length distributions (pdf) of the beard (projecting portion) will be calculated from the fibrograms. These fibrograms and length distributions can be compared to those of the projecting portion obtained from Advanced Fiber Information System (AFIS) tests. The potential differences between the projecting portions fibrograms obtained from these two devices will be identified and analyzed. 2. Calculating the length distribution of the original fibers. We will convert the distributions of the scanned projecting portions of the beards to compute the entire length distributions of the original fibers. These original length distributions are obtained from AFIS tests. The conversion can be achieved by implementing the relationship between the distributions (pdf) of HVI beards and those of the original fibers we developed in earlier stages, such as the application of PLS regression algorithm. 3. Verification After deriving the entire length distributions of original fibers from scanning the beards, we then will verify our results by comparing them to AFIS measured fiber length distributions of the original fibers. Based on the verification we will make proper adjustments to our algorithms and models. For this purpose, we are carrying out a larger set of HVI and AFIS tests. AFIS data have been used as references in this study. 4. Implementation As a result, we can provide the industry a method that enables the HVI to obtain the entire length distributions of the original cotton fibers. Implementation of our results includes providing the industry algorithms and equations for computing fiber length distributions and length parameters such as Lower Half Mean Length and Short Fiber Content.