2018
DOI: 10.3390/f10010016
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Artificial Neural Network Modeling for Predicting Wood Moisture Content in High Frequency Vacuum Drying Process

Abstract: The moisture content (MC) control is vital in the wood drying process. The study was based on BP (Back Propagation) neural network algorithm to predict the change of wood MC during the drying process of a high frequency vacuum. The data of real-time online measurement were used to construct the model, the drying time, position of measuring point, and internal temperature and pressure of wood as inputs of BP neural network model. The model structure was 4-6-1 and the decision coefficient R2 and Mean squared err… Show more

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Cited by 33 publications
(27 citation statements)
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“…To solve the interference issue, the ANN, which would possibly compensate for the interfering responses by training the various backgrounds, was employed and improved the performance of the actual test (Figure 5a,c). It supports the theory that ANN would be effective for the non-linear interference by adjusting the relationship as reported in the previous studies [9,15,28,31,42]. In addition, we applied the ANN to predict the Mg concentration because we expected the ANN would extract the signals from the Mg ions through the training with defined background samples.…”
Section: Discussionsupporting
confidence: 83%
See 2 more Smart Citations
“…To solve the interference issue, the ANN, which would possibly compensate for the interfering responses by training the various backgrounds, was employed and improved the performance of the actual test (Figure 5a,c). It supports the theory that ANN would be effective for the non-linear interference by adjusting the relationship as reported in the previous studies [9,15,28,31,42]. In addition, we applied the ANN to predict the Mg concentration because we expected the ANN would extract the signals from the Mg ions through the training with defined background samples.…”
Section: Discussionsupporting
confidence: 83%
“…The numbers of neurons in the input layer and the output layer were 9 (signals from eight ISEs and one conductivity probe) and 4 (NO 3 , K, Ca, and Mg), respectively. Although ANNs with multiple hidden layers and neurons have a stronger generalization ability, the training time is usually increased and more samples are required to avoid an over-fitting issue [31]. Therefore, for the application of the ANN, the parameters of ANN such as the number of hidden layers or hidden neurons should be determined carefully.…”
Section: Construction and Evaluation Of Data-processing Methodsmentioning
confidence: 99%
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“…This model can be applied to wood drying of other tree species under the same conditions. Chai et al input four parameters of drying time, measuring point location, internal temperature and pressure of wood into the BP neural network model, and predicted the MC of wood during the high-frequency/vacuum drying process [117]. Afterwards, Fu inspected the distribution of drying stress from the pith to the bark during the conventional drying process and predicted wood elastic strain and mechano-sorptive creep strain, respectively [118].…”
Section: Application Of Anns In the Field Of Wood Dryingmentioning
confidence: 99%
“…ANN has been applied as a modeling tool to overcome various challenges in a number of timber forestry sectors. Some studies have developed ANN models to estimate the wood density (Leite et al, 2016;Demertzis et al, 2017), wood stiffness (García-Iruela et al, 2016), wood strenght (Zanuncio et al, 2017), to assess the surface quality of wood (Hazir and Koc 2018) and to predict the moisture content of wood during drying (Chai et al, 2018;Zanuncio et al, 2016).…”
Section: Identificating the Charcoal Originmentioning
confidence: 99%