Classification Quality of Tobacco Leaves as Cigarette Raw Material Based on Artificial Neural Networks

  IJCTT-book-cover
 
International Journal of Computer Trends and Technology (IJCTT)          
 
© 2017 by IJCTT Journal
Volume-50 Number-3
Year of Publication : 2017
Authors : Yuslena Sari, Ricardus Anggi Pramunendar
DOI :  10.14445/22312803/IJCTT-V50P126

MLA

Yuslena Sari, Ricardus Anggi Pramunendar "Classification Quality of Tobacco Leaves as Cigarette Raw Material Based on Artificial Neural Networks". International Journal of Computer Trends and Technology (IJCTT) V50(3):147-150, August 2017. ISSN:2231-2803. www.ijcttjournal.org. Published by Seventh Sense Research Group.

Abstract -
Determination of the current tobacco grade classification performed by the tobacco commonly called grader with a variety of human frailties. Therefore it is necessary to develop classification automation tools. But earlier experiments need to be done first, in this case using Backpropagation Neural Network classification approach.From this research was obtained increased accuracy for the classification grade tobacco leaf with Backpropagation Neural Network method obtained an accuracy of 77.50%. This indicates that the feature extraction parameters such as shape, color, and texture applied to a Neural Network Backpropagation method can produce a level of accuracy that is quite accurate. Tests were also carried out to produce a level of precision and recall satisfactory as well. Based on the data testing eksperimet of 40 tested for classification grade tobacco leaf there are 8 different datasets that result accuracy between Backpropagation Neural Network with a grader.

References
[1] D. Guru and P. B. Mallikarjuna, Spots and Color Based Ripeness Evaluation of Tobacco Leaves for Automatic Harvesting. 2010.
[2] S. Barber, A. Ahsan, S. M. Adioetomo, D. Setyonaluri, U. Indonesia., and Lembaga Demografi, Ekonomi tembakau di Indonesia. 2008.
[3] T. Wibowo, “Potret industri rokok di indonesia,” Kaji. Ekon. Dan Keuang., vol. 7, no. 2, pp. 83–107, 2003.
[4] F. Zhang and X. Zhang, “Classification and quality evaluation of tobacco leaves based on image processing and fuzzy comprehensive evaluation.,” Sensors (Basel)., vol. 11, no. 3, pp. 2369–84, Jan. 2011.
[5] X. Zhang and F. Zhang, “Images Features Extraction of Tobacco Leaves,” 2008 Congr. Image Signal Process., no. X, pp. 773–776, 2008.
[6] G. S. K and S. N. Deepa, “Analysis of computing algorithm using momentum in neural networks,” Learning, vol. 3, no. 6, pp. 163–166, 2011.
[7] K. Husnul and S. Yuslena, “Prediksi kualitas hasil hutan lahan basah menggunakan Backpropagation,” JTIULM, vol. 1, pp. 1–9, 2016.
[8] R. A. Pramunendar and A. Syukur, “AN IMPROVED TECHNIQUE OF COLOR HISTOGRAM IN IMAGE CLUSTERING USING IMAGE MATTING,” J. Theor. Appl. Inf. Technol., vol. 51, no. 2, pp. 196–200, 2013.
[9] S. Kai, “A Research of maize disease image recognition of Corn Based on BP Networks L : / o . O,” no. 2009921090, pp. 246–249, 2011.
[10] R. A. Pramunendar, C. Supriyanto, D. H. Novianto, I. N. Yuwono, G. F. Shidik, and P. N. Andono, “A classification method of coconut wood quality based on Gray Level Co-occurrence matrices,” 2013 International Conference on Robotics, Biomimetics, Intelligent Computational Systems. pp. 254–257, 2013.
[11] M. a. Shahin, E. W. Tollner, and R. W. McClendon, “Artificial Intelligence Classifiers for sorting Apples based on Watercore,” J. Agric. Eng. Res., vol. 79, no. 3, pp. 265–274, Jul. 2001.
[12] (Size 8) S. M. Metev and V. P. Veiko, Laser Assisted Microtechnology, 2nd ed., R. M. Osgood, Jr., Ed. Berlin, Germany: Springer-Verlag, 1998.

Keywords
image processing, classification, tobacco, backpropagation neural network.