Abstract
Dry rubber content (DRC) is an important factor to be considered in evaluating the quality of cup lump rubber. The DRC analysis requires prolonged laboratory validation. To develop fast and effective DRC determination methods, this study proposed methods to evaluate the DRC of cup lump rubber using different spectroscopic measurement approaches. This involved a complete fundamental analysis leading to an efficient measurement method based on either point-based measurement using NIR reflectance spectrometer or area-based measurement using hyperspectral imaging. A dataset was prepared that 120 samples were randomly divided into a calibration set of 90 samples and a validation set of 30 samples. To obtain an average spectrum to represent a cup lump rubber sample, the spectral data were collected by locating and scanning for point-based and area-based measurement, respectively. The spectral data were calibrated using partial least squares regression (PLSR) and the least-squares support vector machine (LS-SVM) methods against the reference values. The experiments showed that the area-based measurement approach with both algorithms performed outstandingly in predicting the DRC of cup lump rubber and was clearly better than the point-based measurement approach. The best predictions of PLSR represented by the coefficient of determination (R2), the root mean square error of prediction (RMSEP) and the residual predictive deviation (RPD) were 0.99, 0.72% and 15.17, while the best prediction of LS-SVM were 0.99, 0.64% and 16.83, respectively. In summary, the area-based measurement based on the LS-SVM prediction model provided a highly accurate estimate of the DRC of cup lump rubber. Keywords: cup lump rubber, dry rubber content, spectroscopic measurement, machine learning, partial least squares regression, least-squares support vector machine DOI: 10.25165/j.ijabe.20211403.6298 Citation: Puttipipatkajorn A, Puttipipatkajorn A. Spectroscopic measurement approaches in evaluation of dry rubber content of cup lump rubber using machine learning techniques. Int J Agric & Biol Eng, 2021; 14(3): 207–213.
Highlights
Natural rubber is an important economic crop in southeast Asia
The entire dataset of 120 samples used in this experiment was randomly divided into a calibration set of 90 samples for developing the models and a validation set of 30 samples for model testing
The experiments showed that the area-based measurement method performed outstandingly in predicting the Dry rubber content (DRC) of cup lump rubber and was more efficient than the point-based measurement
Summary
Natural rubber is an important economic crop in southeast Asia. Thailand is one of the leading producers of natural rubber with about a 35% share of the total production. According to the Office of Agricultural Economics[1], Thailand exported 2.2 million t of natural rubber in 2019 which provided revenue from both export and employment. Natural rubber is used extensively by many manufacturing companies in the rubber industry, either alone or in combination with other materials. Farmers produce rubber in the form of latex and in various types of rubber products, for example Standard Thai Rubber (STR), ribbed smoked sheet (RSS), air dried sheet (ADS), crepe, skim rubber and concentrated latex. Due to its physical properties, this high-graded rubber (STR 20) is suitable for manufacturing high quality rubber products for the automobile industry, for surgical and pharmaceutical use and molded and extruded rubber products in general
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
