Citas bibligráficas
Chavez, J., (2023). Diseño e implementación de un modelo de red neuronal artificial para la predicción del rendimiento académico utilizando información no personal [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/669541
Chavez, J., Diseño e implementación de un modelo de red neuronal artificial para la predicción del rendimiento académico utilizando información no personal [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2023. http://hdl.handle.net/10757/669541
@misc{renati/408532,
title = "Diseño e implementación de un modelo de red neuronal artificial para la predicción del rendimiento académico utilizando información no personal",
author = "Chavez Arias, Jorge Heyul",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2023"
}
The present research is based on the research conducted by the authors, entitled “Artificial neural network model to predict student performance using nonpersonal information“ [1] which consisted of the following: Analysis and purpose of the research: Low academic performance is one of the main problems facing higher education, and it is difficult to combat it as it is influenced by different factors. In Peru, the COVID-19 pandemic forced students to migrate to virtual learning environments. This introduced the need for students and teachers to adapt to a virtual learning environment. This research proposes to develop a system that can predict academic performance based on student interaction with the virtual learning platform without using personal information. Design and Methodology: For the design of the predictive system it is necessary to obtain and process a database that has all this information, after obtaining it, a cleaning, previous selection of variables, transformation, extraction, combination, manipulation, etc. is performed to generate the desired variables for the analysis of the predictive modeling, this is also known as Feature engineering. After having the data ready, the implementation and optimization of different models of Machine Learning and Deep Neural Networks is performed, to then be compared and select the one that achieves the best performance. Results: The chosen algorithm is an Artificial Neural Network, when performing the validation test of a total of 291 students who passed a course, 274 were correctly predicted, and of a total of 210 students who failed, 196 were correctly predicted. The metrics obtained by the model were as follows: 93.81% accuracy, 94.15% precision, 95.13% recall, and 94.64% F1-score. Main conclusion: Predicting students' academic performance allows institutions to better identify at-risk students and take supportive measures, thus ensuring that students successfully complete their academic cycles, in turn, helping institutions gain more prestige.
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