Classification of Fruits High in Vitamin C Using Self-Organizing Map and the K-Means Clustering Algorithm

Nuke L Chusna; Nurhasan Nugroho; Umbar Riyanto; Ahmad Ari Aldino

doi:10.47065/bits.v5i2.4104

Nuke L Chusna * Universitas Krisnadwipayana, Bekasi, Indonesia
Nurhasan Nugroho Universitas Bina Bangsa, Banten, Indonesia
Umbar Riyanto Universitas Muhammadiyah Tangerang, Indonesia
Ahmad Ari Aldino Monash University, Australia

(*) Corresponding Author

DOI: https://doi.org/10.47065/bits.v5i2.4104

Keywords: Artificial Neural Networks; Fruits High in Vitamin C; K-Means Clustering; Self-Organizing Map; Shape Features

Abstract

Vitamin C-rich fruits not only taste fresh and delicious but also have the potential to increase the body's resistance to various diseases and maintain a proper nutritional balance. Information about fruits high in vitamin C is very important in order to increase public knowledge about which fruits contain high levels of vitamin C. However, to classify fruits high in vitamin C based on their image, a model is needed that is able to analyze the characteristics present in the image of the fruit. The purpose of this study is to build a classification model for high-vitamin C fruits with a combination of the Self-Organizing Map (SOM) artificial neural network algorithm and K-Means Clustering. Prior to classification, an image segmentation process is carried out using the K-Means Clustering algorithm, which will separate the image into parts that have similar visual characteristics. After the segmented image, the features of the object are extracted based on shape and texture. After the features of the image have been obtained, proceed with classifying images using the SOM algorithm by mapping multidimensional data into a lower-dimensional spatial representation to obtain the appropriate group or class. The accuracy test results for the built model produce an accuracy value of 93.33% and are included in the good category

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References

R. Wildman, The Nutritionist: Food, Nutrition, and Optimal Health. Bloomington: Archway Publishing, 2019.

J. G. LeBlanc, Vitamin C: an Update on Current Uses and Functions. London: IntechOpen, 2019.

M. Fenech, I. Amaya, V. Valpuesta, and M. A. Botella, “Vitamin C Content in Fruits: Biosynthesis and Regulation,” Front. Plant Sci., vol. 9, no. January, pp. 1–21, 2019, doi: 10.3389/fpls.2018.02006.

R. Revealer, “Top 5 Vitamin C Rich Fruits and Health Benefits of Vitamin C,” UPaae, 2020. https://upaae.com/top-5-vitamin-c-rich-fruits-and-health-benefits-of-vitamin-c/

V. C. S. Rao, S. Venkratamulu, and P. Sammulal, Digital Image Processing and Applications. Singapore: Horizon Books (A Division of Ignited Minds Edutech P Ltd), 2021.

R. I. Borman, R. Napianto, N. Nugroho, D. Pasha, Y. Rahmanto, and Y. E. P. Yudoutomo, “Implementation of PCA and KNN Algorithms in the Classification of Indonesian Medicinal Plants,” in ICOMITEE 2021, 2021, pp. 46–50.

R. I. Borman, F. Rossi, D. Alamsyah, R. Nuraini, and Y. Jusman, “Classification of Medicinal Wild Plants Using Radial Basis Function Neural Network with Least Mean Square,” in International Conference on Electronic and Electrical Engineering and Intelligent System (ICE3IS), 2022.

M. A. Hasan and A. S. Budi, “Pears Classification Using Principal Component Analysis and K-Nearest Neighbor,” Sink. J. dan Penelit. Tek. Inform., vol. 4, no. 2, pp. 34–41, 2020.

M. C. Untoro, M. Praseptiawan, M. Widianingsih, I. F. Ashari, A. Afriansyah, and O. Oktafianto, “Evaluation of Decision Tree, K-NN, Naive Bayes and SVM with MWMOTE on UCI Dataset,” in ICComSET, 2019, pp. 1–8. doi: 10.1088/1742-6596/1477/3/032005.

M. Zeeshan, A. Prabhu, C. Arun, and N. S. Rani, “Fruit Classification System Using Multiclass Support Vector Machine Classifier,” in Proceedings of the International Conference on Electronics and Sustainable Communication Systems, 2020, pp. 289–294.

M. Baldomero-Naranjo, L. I. Martínez-Merino, and A. M. Rodríguez-Chía, “A robust SVM-based approach with feature selection and outliers detection for classification problems,” Expert Syst. Appl., vol. 178, p. 115017, 2021, doi: https://doi.org/10.1016/j.eswa.2021.115017.

C. Dewi, E. Arisoesilaningsih, W. F. Mahmudy, and S. Solimun, “Identifying of unripe Ambon and Hijau banana fruits using computer vision and extreme learning machine classifier,” in IOP Conf. Series: Earth and Environmental Science, 2022, pp. 1–8. doi: 10.1088/1755-1315/951/1/012031.

M. Wong, W. Abeysinghe, and C. Hung, “A Massive Self-Organizing Map For Hyperspectral Image Classification,” in Workshop on Hyperspectral Imaging and Signal Processing: Evolution in Remote Sensing (WHISPERS), 2019, pp. 1–5. doi: 10.1109/WHISPERS.2019.8921093.

I. Ahmad, Y. Rahmanto, R. I. Borman, F. Rossi, Y. Jusman, and A. D. Alexander, “Identification of Pineapple Disease Based on Image Using Neural Network Self-Organizing Map (SOM) Model,” in International Conference on Electronic and Electrical Engineering and Intelligent System (ICE3IS), 2022.

D. I. Mulyana, A. Saepudin, and M. B. Yel, “Health Detection of Betal Leaves Using Self-Organizing Map and Thresholding Algorithm,” J. Appl. Eng. Technol. Sci., vol. 4, no. 1, pp. 180–189, 2022.

I. Ahmad, E. Suwarni, R. I. Borman, A. Asmawati, F. Rossi, and Y. Jusman, “Implementation of RESTful API Web Services Architecture in Takeaway Application Development,” in International Conference on Electronic and Electrical Engineering and Intelligent System (ICE3IS), 2022, pp. 132–137. doi: 10.1109/ICE3IS54102.2021.9649679.

A. Mulyanto, E. Susanti, F. Rossi, W. Wajiran, and R. I. Borman, “Penerapan Convolutional Neural Network (CNN) pada Pengenalan Aksara Lampung Berbasis Optical Character Recognition (OCR),” JEPIN (Jurnal Edukasi dan Penelit. Inform., vol. 7, no. 1, pp. 52–57, 2021.

Z. Abidin, R. I. Borman, F. B. Ananda, P. Prasetyawan, F. Rossi, and Y. Jusman, “Classification of Indonesian Traditional Snacks Based on Image Using Convolutional Neural Network (CNN) Algorithm,” in International Conference on Electronic and Electrical Engineering and Intelligent System (ICE3IS), 2022, pp. 18–23.

I. O. Muraina, “Ideal Dataset Splitting Ratios in Machine Learning Algorithms: General Concerns for Data Scientists and Data Analysts,” in 7th International Mardin Artuklu Scientific Researches Conference, 2022, pp. 496–505.

J. Pardede, M. G. Husada, A. N. Hermana, and S. A. Rumapea, “Fruit Ripeness Based on RGB , HSV, HSL, L*a*b* Color Feature Using SVM,” in International Conference of Computer Science and Information Technology (ICoSNIKOM), 2019.

S.-H. Baek, K.-H. Park, J.-S. Jeon, and T.-Y. Kwak, “Using the CIELAB Color System for Soil Color Identification Based on Digital Image Processing,” J. Korean Geotech. Soc., vol. 38, no. 5, pp. 61–71, 2022.

R. I. Borman, Y. Fernando, and Y. Egi Pratama Yudoutomo, “Identification of Vehicle Types Using Learning Vector Quantization Algorithm with Morphological Features,” J. RESTI (Rekayasa Sist. dan Teknol. Informasi), vol. 6, no. 2, pp. 339–345, 2022, doi: 10.29207/resti.v6i2.3954.

S. Jardim, J. António, and C. Mora, “Graphical Image Region Extraction with K-Means Clustering and Watershed,” J. Imaging, vol. 8, no. 163, pp. 1–27, 2022.

R. I. Borman, Y. Fernando, and Y. E. P. Yudoutomo, “Identification of Vehicle Types Using Learning Vector Quantization Algorithm with Morphological Features,” J. RESTI (Rekayasa Sist. dan Teknol. Informasi), vol. 5, no. 158, pp. 339–345, 2022.

R. I. Borman, F. Rossi, Y. Jusman, A. A. A. Rahni, S. D. Putra, and A. Herdiansah, “Identification of Herbal Leaf Types Based on Their Image Using First Order Feature Extraction and Multiclass SVM Algorithm,” in International Conference on Electronic and Electrical Engineering and Intelligent System (ICE3IS), 2021, pp. 12–17.

H. Mayatopani, R. I. Borman, W. T. Atmojo, and A. Arisantoso, “Classification of Vehicle Types Using Backpropagation Neural Networks with Metric and Ecentricity Parameters,” J. Ris. Inform., vol. 4, no. 1, pp. 65–70, 2021, doi: 10.34288/jri.v4i1.293.

M. H. Santoso, D. A. Larasati, and M. Muhathir, “Wayang Image Classification using MLP Method and GLCM Feature Extraction,” J. Comput. Sci. Inf. Technol. Telecommun. Eng., vol. 1, no. 2, pp. 111–120, 2020, doi: 10.30596/jcositte.v1i2.5131.

S. M. Javidan, A. Banakar, K. A. Vakilian, and Y. Ampatzidis, “Diagnosis of grape leaf diseases using automatic K-means clustering and machine learning,” Smart Agric. Technol., vol. 3, pp. 1–14, 2023, doi: 10.1016/j.atech.2022.100081.

A. Banerjee, N. Rakshit, M. Chakrabarty, S. Sinha, S. Ghosh, and S. Ray, “Zooplankton community of Bakreswar reservoir: Assessment and visualization of distribution pattern using self-organizing maps,” Ecol. Inform., vol. 72, p. 101837, 2022, doi: https://doi.org/10.1016/j.ecoinf.2022.101837.

J. Zhang, L. Cao, M. Zhang, and W. Fu, “Extracting the Brain-Like Representation by an Improved Self-Organizing Map for Image Classification,” in International Conference on Acoustics, Speech and Signal Processing (ICASSP), 2023, pp. 1–5. doi: 10.1109/ICASSP49357.2023.10095998.

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Classification of Fruits High in Vitamin C Using Self-Organizing Map and the K-Means Clustering Algorithm

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