One Versus All Strategies of Multiclass SVM in Modeling Agarwood Oil Quality Classification
One Versus All Strategies of Multiclass SVM in Modeling Agarwood Oil Quality Classification |
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| © 2021 by IJETT Journal | ||
| Volume-69 Issue-6 |
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| Year of Publication : 2021 | ||
| Authors : Aqib Fawwaz Mohd Amidon, Noratikah Zawani Mahabob, Nurlaila Ismail, Zakiah Mohd Yusoff, Mohd Nasir Taib |
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| DOI : 10.14445/22315381/IJETT-V69I6P218 | ||
How to Cite?
Aqib Fawwaz Mohd Amidon, Noratikah Zawani Mahabob, Nurlaila Ismail, Zakiah Mohd Yusoff, Mohd Nasir Taib, "One Versus All Strategies of Multiclass SVM in Modeling Agarwood Oil Quality Classification," International Journal of Engineering Trends and Technology, vol. 69, no. 6, pp. 121-125, 2021. Crossref, https://doi.org/10.14445/22315381/IJETT-V69I6P218
Abstract
Agarwood oil is one of the most beneficial oil to the world community with a high demand. It is beneficial due to the variety of usages such as incense, traditional medicine, and perfumes. However, there has been a lack of research on the development of agarwood oil because there is no any standard grading model of agarwood oil was implemented. As a solution forms, it is very important to come out with a standard of quality classification model for agarwood oil grading’s. By continuing of the research for the development of this standard, specific algorithm function has been used to make sure the ability of this model is totally not in doubt. Support vector machine (SVM) has been chosen as a main model and for the specific function algorithm that has been chosen was multiclass function. Then, in the function, the one versus all (OVA) strategies has been used to make multiclass work and can be applied on SVM. The analysis work has involving the data taken from the previous researcher that consists of four classes of agarwood oil quality’s samples which are low, medium low, medium high and high quality. So, the output was the classification of quality between low, medium low, medium high or high quality while the input was the abundances (%) of compounds. The desk research has been conducted by using MATLAB software version r2020a for the simulation platform. The result showed that the model by using multiclass function has pass the performance criteria standard. The verdict in this research for sure will be valuable for the future research works of agarwood oil areas, especially quality classification part.
Keywords
Agarwood oil, Mutliclass, One Versus All, Support Vector Machine, Performance criteria.
Reference
[1] M. H. Haron, Agarwood Oil Quality Grading Model Using Self-Organizing Map (SOM), PhD Dissertation, Faculty of Electrical Engineering, Universiti Teknologi MARA (UiTM), (2020).
[2] N. Ismail, ANN Modelling for Agarwood Oil Significant Compounds for Oil Quality Discrimination, PhD Dissertation, Faculty of Electrical Engineering, Universiti Teknologi Mara (UiTM), (2015).
[3] N. S. Zubir, M. A. Abas, N. Ismail, N. A. M. Ali, M. H. F. Rahiman, N. K. Mun, M. N. Taib and S. N. Tajuddin, Pattern Classifier of Chemical Compounds in Different Qualities of Agarwood Oil Parameter using Scale Conjugate Gradient Algorithm in MLP, 2017 IEEE 8th Control Syst. Grad. Res. Colloquium, ICSGRC 2017 - Proc., no. March, (2017) 10–12.
[4] S. Wang, Z. Yu, C. Wang, C. Wu, P. Guo and J. Wei, Chemical Constituents and Pharmacological Activity of Agarwood and Aquilaria Plants, MDPI, (2018).
[5] N. Ismail, H. Ariffin, M. H. F. Rahiman, M. N. Taib, N. A. M. Ali and S. N. Tajuddin,” Statistical Learning BSVM Model to the Problem of Agarwood Oil Quality Categorization”, 2018 IEEE Conference on Systems, Process and Control (ICSPC 2018), 14 – 15 December 2018, Melaka, Malaysia.
[6] D. T. T. Thuy, T. T. Tuyen, T. T. T. Thuy, P. T. H. Minh, Q. T. Tran, P. Q. Long, D. C. Nguyen, L. G. Bach, N. Q. Chien, Isolation Process and Compound Identification of Agarwood Essential Oils from Aquilaria Crassna Cultivated at Three Different Locations in Vietnam, MDPI, (2019).
[7] M. H. Haron, M. N. Taib, N. Ismail, N. A. M. Ali, and S. N. Tajuddin, Statical Analysis of Agarwood Oil Compounds based on GC-MS Data, (2018) 9th IEEE Control and System Graduate Research Colloquium (ICSGRC 2018), 3 – 4 August 2018, Shah Alam, Malaysia.
[8] N. Ismail, N. A. M. Ali, M. Jamil, M. H. F. Rahiman, S. N. Tajuddin, and M. N. Taib, A review study of agarwood oil and its quality analysis, J. Teknol. (Sciences Eng., 68 (1) (2014) 37–42.
[9] K. A. A. Kamarulzaini, N. Ismail, M. H. F. Rahiman, M. N. Taib, N. A. M. Ali and S. N. Tajuddin, Evaluation of RBF and MLP in SVM Kernel Tuned Parameters for Agarwood Oil Quality Classification, 2018 IEEE 14th International Colloquium on Signal Processing & its Application (CSPA 2018), 9 -10 March 2018, Penang, Malaysia.
[10] M. Aqib et al., Agarwood Oil Quality Classification using Support Vector Classifier and Grid Search Cross Validation Hyperparameter Tuning, Int. J. Emerg. Trends Eng. Res., 8(6) (2020) 6–11.
[11] R. Kalra and N. Kaushik, A review of chemistry, quality and analysis of infected agarwood tree (Aquilaria sp.), Phytochem. Rev., 16 (5) (2017) 1045–1079.
[12] M. A. N. Azah, S. S. Husni, J. Mailina, L. Sahrim, J. Abdul Majid, and Z. Mohd Faridz, Classification of agarwood (gaharu) by resin content, J. Trop. For. Sci.,. 25 (2) (2013) 213–219.
[13] M. A. A. Ngadilan, N, Ismail, M. H. F. Rahiman, N. A. M. Ali and S. N. Tajuddin, Radial Basis Function (RBF) tuned Kernel Parameter of Agarwood Oil Compound for Quality Classification using Support Vector Machine (SVM), 2018 9th IEEE Control and System Graduate Research Colloquium (ICSGRC 2018), 3 – 4 August 2018, Shah Alam, Malaysia.
[14] H. Jantan, I. M. Yassin, A. Zabidi, and N. Ismail, Differentiation of Agarwood Oil Quality Using Support Vector Machine (SVM), J. Eng. Appl. Sci., 12 (15) (2017) 3810–3812.
[15] M. A. A. Aziz, N. Ismail, I. M. Yassin, A. Zabidi, and M. S. A. M. Ali, Agarwood oil quality classification using cascade-forward neural network, Proc. - 2015 6th IEEE Control Syst. Grad. Res. Colloquium, ICSGRC 2015, (2016) 112–115.
[16] H. Taud and J. Mas, Multilayer Perceptron (MLP), in Geomatic Approaches for Modeling Land Change Scenarios, ed: Springer, (2018) 451-455.
[17] R. Kamminana, V. Kambagowni, Modeling and Optimization of Process Parameters of Friction Stir Welding of Al-Li Alloy AA2050 by Response Surface Methodology, International Journal of Engineering Trends and Technology 69(5) (2021) 208-227.
[18] H. Kerdegari, K. Samsudin, A. R. Ramli, and S. Mokaram, Evaluation of fall detection classification approaches, in Intelligent and Advanced Systems (ICIAS), 2012 4th International Conference (2012) 131-136.
[19] N. Ismail, M. H. F. Rahiman, M. N. Taib, M. Ibrahim, S. Zareen, and S. N. Tajuddin, A review on agarwood and its quality determination, Proc. - 2015 6th IEEE Control Syst. Grad. Res. Colloquium, ICSGRC 2015. (2016) 103–108.
[20] N. S. Zubir, M. A. Abas, N. Ismail, N. A. M. Ali, M. H. F. Rahiman, N. K. Mun, M. N. Taib and S. N. Tajuddin, Pattern Classifier of Chemical Compounds in Different Qualities of Agarwood Oil Parameter using Scale Conjugate Gradient Algorithm in MLP, 2017 IEEE 13th International Colloquium on Signal Processing * its Applications (CSPA 2017), (2017) 10-12 Penang, Malaysia.
[21] Y. Zhang and R. Li, Selection of the Parameter in Gaussian Kernels in Support Vector Machine, 2017th 2nd IEEE International Conference on Cloud Computing and Big Data Analysis, (2017).
[22] N. S. Zubir, N. Ismail, M. H. F. Rahiman, M. N. Taib, N. A. M. Ali and S. N. Tajuddin, Polynomial tuned Kernel Parameter in SVM of Agarwood Oil for Quality Classification, 2018 IEEE International Conference on Automatic Control and Intelligent Systems (I2CACIS 2018), (2018), Shah Alam, Malaysia.
[23] A. Mathur and G. M. Foody, Multiclass and Binary SVM Classification: Implications for Training and Classification Users, IEEE Geoscience and Remote Sensing Letters, 5 (2) (2008).
[24] A. Rocha and S. K. Goldenstein, Multiclass from Binary: Expanding One-Versus-All, One-Versus-One and ECOC-Based Approaches, IEEE Transactions on Neural Networks and Learning Systems, 25 (2) 2014.
[25] Irina Klyueva, Improving Quality of the Multiclass SVM Classification Based on the Feature Engineering, 2019 1st International Conference on Control Systems, Mathematical Modelling, Automation and Energy Efficiency (SUMMA), (2019).
[26] S. Daengduang and P. Vateekul, Applying One-Versus-One SVMs to Classify MutlciLabel Data with Large Labels Using Spark, 2017 9th International Conference on Knowledge and Smart Technology (KST), (2017).