Selection of the programming environment for neural modelling of the power and electricity demand generation systems in terms of unmanned factories

Authors

  • Jerzy Tchórzewski University of Siedlce
  • Sebastian Rosochacki University of Siedlce

DOI:

https://doi.org/10.34739/si.2023.29.07

Keywords:

National Power System, MATLAB, Simulink, Python, Artificial Neural Network, Wolfram Mathematica

Abstract

The work concerns the selection of the programming language and environment for the needs of neural modeling of the power and electricity demand generation system in terms of uninhabited factories. Therefore, the main goal of the conducted research is to obtain the best possible Artificial Neural Network, i.e. to teach it a model of a real system, which is a system for generating demand for power and electricity based on numerical data on parts of the power system operation in terms of uninhabited factories. The learning capabilities of artificial neural networks were checked by comparing the MSE error and the Regression Index R2. In each of the examined programming languages and related programming environments, i.e. Matlab, Python and Wolfram, an Artificial Neural Network with the same structure and properties was designed and implemented, i.e. with the same number of input and output neurons, the number of hidden layers and the number of neurons in them, the activation function of neurons and the learning method. In addition to the ANN training of the system model, testing and validation as well as comparative studies were carried out.

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Published

26.12.2023

How to Cite

Tchórzewski, J., & Rosochacki, S. (2023). Selection of the programming environment for neural modelling of the power and electricity demand generation systems in terms of unmanned factories. Studia Informatica. System and Information Technology, 29(2), 95-106. https://doi.org/10.34739/si.2023.29.07