CFP last date
15 January 2025
Call for Paper
February Edition
IJAIS solicits high quality original research papers for the upcoming February edition of the journal. The last date of research paper submission is 15 January 2025

Submit your paper
Know more
Reseach Article

Predictive Analysis in Solar Kiln Drying of Wood using Recurrent Neural Networks

by Adebola K. Ojo, Adedoyin E. Amoo-Onidundu
International Journal of Applied Information Systems
Foundation of Computer Science (FCS), NY, USA
Volume 12 - Number 37
Year of Publication: 2021
Authors: Adebola K. Ojo, Adedoyin E. Amoo-Onidundu
10.5120/ijais2021451906

Adebola K. Ojo, Adedoyin E. Amoo-Onidundu . Predictive Analysis in Solar Kiln Drying of Wood using Recurrent Neural Networks. International Journal of Applied Information Systems. 12, 37 ( June 2021), 10-15. DOI=10.5120/ijais2021451906

@article{ 10.5120/ijais2021451906,
author = { Adebola K. Ojo, Adedoyin E. Amoo-Onidundu },
title = { Predictive Analysis in Solar Kiln Drying of Wood using Recurrent Neural Networks },
journal = { International Journal of Applied Information Systems },
issue_date = { June 2021 },
volume = { 12 },
number = { 37 },
month = { June },
year = { 2021 },
issn = { 2249-0868 },
pages = { 10-15 },
numpages = {9},
url = { https://www.ijais.org/archives/volume12/number37/1115-2021451906/ },
doi = { 10.5120/ijais2021451906 },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Journal Article
%1 2023-07-05T19:11:08.654078+05:30
%A Adebola K. Ojo
%A Adedoyin E. Amoo-Onidundu
%T Predictive Analysis in Solar Kiln Drying of Wood using Recurrent Neural Networks
%J International Journal of Applied Information Systems
%@ 2249-0868
%V 12
%N 37
%P 10-15
%D 2021
%I Foundation of Computer Science (FCS), NY, USA
Abstract

Prediction in data mining, is a technique used in predicting results or outcomes of future occurrence in reference to existing information. Several predictive models have been developed for different fields of study. In solar kiln drying experiment, as a result of dependence on nature for its operation, outcomes of drying process is unstable and varies with weather variability. Although predictive models have been developed for wood drying experiments, there is very limited information on the use of Neural Networks for predicting outcomes in solar kiln drying of wood. In this work, Long Short-term Memory model, a special type of Recurrent Neural Network was adopted for prediction in solar kiln drying of wood. Data collected on external (atmospheric) and internal conditions of a solar kiln sited at from Forestry Research Institute of Nigeria was used for this study. Daily ambient and internal temperature and relative humidity were used as input data. The closeness of relationship between the experimental and predicted values (Mean Square Error, MSE = 0.97; 30.4) and (Squared Correlation, R2=0.68, 0.85) for Temperature and Relative Humidity respectively revealed that the model had a good agreement with data. The Equilibrium Moisture Content (EMC) of internal solar kiln environment which influences the outcome of drying was considered. The EMC of internal solar kiln environment was predicted for the next 730 days and suitability of the model for prediction was examined giving an MSE value of 0.2 and r2 value of 0.87. The findings of this study suggest a viable model for predicting drying outcomes under varying weather conditions.

References
  1. Dipeeka K. Rathod and Neha Valmik (2014). Overview of Data Mining Techniques. Advances in Computer Science and Information Technology (ACSIT) Print ISSN: 2393-9907; Online ISSN: 2393-9915; Volume 1, Number 2; November, 2014 pp. 74-76 © Krishi Sanskriti Publications http://www.krishisanskriti.org/acsit.html
  2. Ghorbani, R and Ghousi, R. (2019). Predictive Data Mining Approach in Medical Diagnosis: A review of some diseases’ prediction. International journal of Data and Network Science 3:47-70
  3. Haojie Chai Xianming Chen Yingchun Cai 1 and Jingyao Zhao (2018) Artificial Neural Network Modeling for Predicting Wood Moisture Content in High Frequency Vacuum Drying Process. Forests 2019, 10, 16; doi:10.3390/f10010016 www.mdpi.com/journal/forests.
  4. Hongwei Wu and Stavros Avramidis 2006. Prediction of Timber Kiln Drying Rates by Neural Networks Department of Wood Science, The University of British Columbia, Vancouver, British Columbia, Canada.
  5. Janssens, C. (2018). Introduction to Prediction Research: Manual on prediction. 1-36
  6. Ojo A.K. (2017). Projecting the Future Direction of Publication Patterns Using Text Mining. International Journal of Scientific and Engineering Research. Vol. 8. No. 7.: 2218-2226.
  7. Ojo A.K. and Adeyemo A.B. (2013). A Comparison of the Predictive Capabilities of Artificial Neural Networks and Regression Models for Knowledge Discovery. Information Systems, Development Informatics and Business Management Vol. 4. No. 2: 27-32.
  8. Shengjun Wen, Mingcong Deng, Akira Inoue 2012. Moisture Content Prediction of wood Drying process using SVM-based model. International Journal of Innovative Computing Information and Control Vol. 8 (6):4083-4093
  9. Xiao-dong Zhu, Jun Cao, Feng-hu Wang, Jian-ping Sun, and Yu Liu 2009. Wood Defect Identification Based on Artificial Neural Network. © Springer-Verlag Berlin Heidelberg. ISICA, CCIS 51, 207-214.
  10. Zanuncio, Carvalho, Da Silva, Carneiro and Colodette 2016. Artificial Neural Networks as a New Tool for Assessing and Monitoring Wood Moisture Content. Revista Árvore, Viçosa-MG, Vol. 40 (3): 543-549.
  11. Zhang, Sun, CAO (2006): Modelling of temperature-humidity for wood drying based on time-delay neural network. Journal of Forestry Research, 17(2): 141-144.
Index Terms

Computer Science
Information Sciences

Keywords

Equilibrium Moisture Content Long Short-term Memory temperature