Volume 91, Issue 12 p. 2091-2099
Original Paper

Artificial and Hybrid Fuzzy Linear Neural Network-Based Estimation of Seed Oil Content of Safflower

Mohammad R. Sabzalian

Corresponding Author

Mohammad R. Sabzalian

Department of Agronomy and Plant Breeding, Isfahan University of Technology, Isfahan, 84156-83111 Iran

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Mehdi Khashei

Mehdi Khashei

Department of Industrial Engineering, Isfahan University of Technology, Isfahan, 84156-83111 Iran

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Mostafa Ghaderian

Mostafa Ghaderian

Department of Pharmacy, Faculty of Medicine, University of Malaya, Kuala Lumpur, Malaysia

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First published: 17 October 2014
Citations: 8

Abstract

Inexpensive and rapid methods for measurement of seed oil content by near infrared reflectance spectroscopy (NIRS) are useful for developing new oil seed cultivars. Adopting default multiple linear regression (MLR), the predictions of safflower oil content were made by 20–140 samples using a Perten Inframatic 8620 NIR spectrometer. Although the obtained interpolation results of MLR had desired accuracy, the extrapolation was extremely poor. The extrapolation determination coefficient (R2) and standard error (SE) of cross validation for MLR models were 0.63–0.78 and 3.71–4.44, respectively. In order to overcome the accuracy limitation of linear MLR models, a common suggestion is to use a nonlinear artificial neural network (ANN); however, it needs a large number of data to yield significant accurate results. We developed a novel robust hybrid fuzzy linear neural (HFLN) network to capture simultaneously linear and nonlinear patterns of data with a limited number of safflower samples. Empirical extrapolation results showed that the HFLN had higher R2 (=0.85) and lower SE (=1.83) compared to those obtained by MLR and ANN models. It is concluded that hybrid methodologies could be used to construct efficient and appropriate models for estimation of seed oil content set up on NIR system.