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Calibration and frequency estimation in sensors for electrical parameter measurement using regression and metaheuristic based models.

Authors :
Ranasingh, Soumyaranjan
Pradhan, Tapan
Dhenuvakonda, Koteswara Raju
Source :
Expert Systems; Mar2023, Vol. 40 Issue 3, p1-24, 24p
Publication Year :
2023

Abstract

Calibration is the backbone of any sensor and measurement philosophy. The conventional calibration techniques for electrical parameter measurement using nonlinear sensors are affected by the repeating analogue signals and lead to errors in measurement. This research paper investigates different regression‐based mathematical models to calibrate the Hall sensor for measuring RMS and the fundamental frequency. The novelty of this research work lies in the feature‐based input modelling to measure RMS current and frequency with an error of 3.37e‐12% and 7.61e‐9%, respectively. The conventional Fourier transform method is compared with six different bio‐inspired metaheuristic algorithms to estimate the frequency components of the analogue signal received from the measurement setup. Apart from the conventional sine waveforms, this paper investigates sawtooth and square waveforms as the periodic signals for determining the frequency components. The results from the comparison study show that the Whale Optimization Algorithm exhibits 1.25% lesser error whilst predicting the features in measured frequency components. Apart from this, the paper identifies a unique combination of features that effectively measures the instantaneous electrical parameter with RMSE, NRMSE, and R2 value of 158.8, 0.51, and 0.44, respectively. Experimentally it is found that the decision tree and random forest regression models calibrate the Hall sensor with 93% less error than their linear and polynomial counterparts. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
02664720
Volume :
40
Issue :
3
Database :
Complementary Index
Journal :
Expert Systems
Publication Type :
Academic Journal
Accession number :
161743582
Full Text :
https://doi.org/10.1111/exsy.13208