Abstract
Drying as an effective method for preservation of crop products is affected by various conditions and to obtain optimum drying conditions it is needed to be evaluated using modeling techniques. In this study, an adaptive neuro-fuzzy inference system (ANFIS), artificial neural network (ANN), and support vector regression (SVR) was used for modeling the infrared-hot air (IR-HA) drying kinetics of parboiled hull. The ANFIS, ANN, and SVR were fed with 3 inputs of drying time (0–80 min), drying temperature (40, 50, and 60 °C), and two levels of IR power (0.32 and 0.49 W/cm2) for the prediction of moisture ratio (MR). After applying different models, several performance prediction indices, i.e., correlation coefficient (R2), mean square error index (MSE), and mean absolute error (MAE) were examined to select the best prediction and evaluation model. The results disclosed that higher inlet air temperature and IR power reduced the drying time. MSE values for the ANN, ANFIS tests, and SVR training were 0.0059, 0.0036, and 0.0004, respectively. These results indicate the high-performance capacity of machine learning methods and artificial intelligence to predict the MR in the drying process. According to the results obtained from the comparison of the three models, the SVR method showed better performance than the ANN and ANFIS methods due to its higher R2 and lower MSE.
Highlights
Rice is one of the oldest and most important grains on earth
The results showed that the adaptive neuro-fuzzy inference system (ANFIS) model provided better results for all predicted parameters
Three neurons including inlet air temperature, IR power, and drying time were employed in the input layer of artificial neural network (ANN)
Summary
Rice is one of the oldest and most important grains on earth. Due to the increase in population and the limitations of increasing the area under rice cultivation, the most important goal in the industry is the processing of this strategic plant and the production of the highest quality crop [1]. The purposes of the present study are (a) investigation of the effect of drying temperature (40, 50, and 60 ◦ C) at two levels of IR power (0.32 and 0.49 W/cm2 ) on parboiled hulls moisture ratio (b) the evaluation of the different topologies of ANN models as shaped by the selection of the networks, activation functions, training algorithm, the neuron and the hidden layer number, (c) the evaluation of different first-order Takagi–Sugeno type ANFIS models with different number and types of membership function for each input and output, training algorithm, number of output membership functions and number of fuzzy rules for predicting the drying characteristics of parboiled hulls, (d) the comparison of the various learning algorithms of the support vector regression method for estimating the MR of drying of parboiled hulls
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