Analysis of The Use of Nguyen Widrow Algorithm in Backpropagation in Kidney Disease
DOI:
10.33395/sinkron.v8i2.13608Abstract
Fast and accurate diagnosis is very important for kidney disease. This research conducts and analyzes by using Nguyen Widrow Algorithm in Back Propagation method in artificial neural network for kidney disease diagnosis with the aim to improve the accuracy in predicting and time efficiency in diagnosing. The Nguyen Widrow algorithm is very capable of accelerating convergence and stabilizing the learning process in artificial neural networks, which is also expected to present a meaningful contribution to the handling of health data. This study uses MATLAB as a platform for algorithm implementation and a dataset of medical records of kidney disease patients collected from a hospital that specializes in treating kidney disease patients. The data pre-processing and artificial neural network modeling stages use the Nguyen Widrow algorithm, while the model training process uses the Back Propagation method. The results showed that the Nguyen Widrow algorithm was able to improve the accuracy of predicting someone suffering from kidney disease compared to using only the Back Propagation method. Analysis of the performance of the model shows a significant improvement in stability and convergence speed during the learning process. This indicates that data processing and medical decision making becomes more efficient. On the other hand, this research also studied the challenges and limitations that will be faced in terms of implementation of the Nguyen Widrow algorithm. Also the sensitivity of the initialization parameters, the need for the quality of the dataset to be used in training the model.
This research reveals the ability of the Nguyen Widrow algorithm to improve the performance of artificial neural networks in diagnosing kidney disease. By implementing this algorithm in MATLAB, the results show that the use of the latest data processing technology and analysis tools can provide significant improvements in accuracy and efficiency in the medical field. In addition, this research is expected to provide a new direction in the development of machine learning algorithms for applications in the healthcare field, especially for diagnosing kidney disease. By further utilizing this technology, it contributes significantly to improving the quality of healthcare and treatment outcomes for patients suffering from kidney disease.
Downloads
References
Adzani, W. A., & Sasongko, P. S. (2021). Klasifikasi Status Gizi Balita Menggunakan Metode Backpropagation Dengan Algoritma Levenberg-Marquardt dan Inisialisasi Nguyen Widrow. JURNAL MASYARAKAT INFORMATIKA, 12(1). https://doi.org/10.14710/jmasif.12.1.41020
datacamp. (2024). Mastering Backpropagation: A Comprehensive Guide for Neural Networks | DataCamp. https://www.datacamp.com/tutorial/mastering-backpropagation
Hakim, I., Efendi, S., & Sirait, P. (2021). Optimization of The Backpropagation Method with Nguyen-widrow in Face Image Classification. Randwick International of Social Science Journal, 2(2). https://doi.org/10.47175/rissj.v2i2.226
Kurniawan, E., Wibawanto, H., & Widodo, D. A. (2019). Implementasi Metode Backpropogation dengan Inisialisasi Bobot Nguyen Widrow untuk Peramalan Harga Saham. Jurnal Teknologi Informasi Dan Ilmu Komputer, 6(1). https://doi.org/10.25126/jtiik.201961904
machinelearningmastery. (2024). How to Code a Neural Network with Backpropagation In Python (from scratch) - MachineLearningMastery.com. https://machinelearningmastery.com/implement-backpropagation-algorithm-scratch-python/
Mahfuzh, H. F., Widiyanto, D., & Chamidah, N. (2020). Pengaruh Algoritma Inisialisasi Ngiyen-Widrow Terhadap Algoritma Backpropagation Dalam Prediksi Indeks Harga Konsumen (IHK). Jurnal Seminar Nasional Mahasiswa Bidang Ilmu Komputer Dan Aplikasinya (SENAMIKA).
mathworks. (2023). Nguyen-Widrow layer initialization function - MATLAB initnw. https://www.mathworks.com/help/deeplearning/ref/initnw.html
MATLAB: Definisi, Kegunaan, dan Sistemnya - Glints Blog. (n.d.). Retrieved March 29, 2024, from https://glints.com/id/lowongan/matlab-adalah/
Matt Mazur. (2023). A Step by Step Backpropagation. https://mattmazur.com/2015/03/17/a-step-by-step-backpropagation-example/
neptune.ai. (2023). A Comprehensive Guide to the Backpropagation Algorithm in Neural Networks. https://neptune.ai/blog/backpropagation-algorithm-in-neural-networks-guide
Pavelka, A., & Procházka, A. (n.d.). ALGORITHMS FOR INITIALIZATION OF NEURAL NETWORK WEIGHTS.
Rahayu, N., & Mustafidah, H. (2022). Perbandingan Ketepatan Pola Data pada Jaringan Backpropagation Berdasarkan Metode Pembobotan Random dan Nguyen Widrow. Sainteks, 19(1). https://doi.org/10.30595/sainteks.v19i1.12931
solver. (2024). Training an Artificial Neural Network - Intro | solver. https://www.solver.com/training-artificial-neural-network-intro
Tiastama, S. A., Laksana, T. G., & Arifa, A. B. (2021). Prediksi Penyakit Ginjal Kronis Menggunakan Hibrid Jaringan Saraf Tiruan Backpropagation dengan Particle Swarm Optimization. Journal of Innovation Information Technology and Application (JINITA), 3(1), 9–16. https://doi.org/10.35970/JINITA.V3I1.588
Yudi Setyawan. (2016). View of JARINGAN SYARAF TIRUAN DAN NAIVE BAYES UNTUK MENDETEKSI PENYAKIT GAGAL GINJAL DI RSUD Dr. ADHYATMA TUGUREJO SEMARANG. https://ejournal.akprind.ac.id/index.php/snast/article/view/1619/1302
Downloads
|
How to Cite
Issue
Section
License
Copyright (c) 2024 Romanus Damanik, Muhammad Zarlis, Zakarias Situmorang
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
Muhammad Khoiruddin harahap
Google Scholar 
Moraref
PKP Index
Garuda Kemdikbud
Indonesia OneSearch
OCLC Worldcat
Dimensions
Index Copernicus
Scilit
