Final published version
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Research output: Contribution to Journal/Magazine › Journal article › peer-review
Research output: Contribution to Journal/Magazine › Journal article › peer-review
}
TY - JOUR
T1 - Optimizing alpha–beta filter for enhanced predictions accuracy in industrial applications using Mamdani fuzzy inference system
AU - Khan, Junaid
AU - Fayaz, Muhammad
AU - Zaman, Umar
AU - Lee, Eunkyu
AU - Balobaid, Awatef Salim
AU - Bilal, Muhammad
AU - Kim, Kyungsup
PY - 2025/4/30
Y1 - 2025/4/30
N2 - This work presents a novel approach for dynamically optimizing the alpha–beta filter parameters through the Mamdani fuzzy inference system (MFIS) for industrial applications to estimate the state of dynamic systems based on sensor measurements. Our proposed method has two important components: the primary predictor utilizing the alpha–beta algorithm, and a rule-based mechanism leveraging the Mamdani fuzzy inference system. To illustrate our approach and simplify the demonstration, we selected two types of sensors: temperature and humidity. The model efficiently processes input from these sensors, refining the sensor data to filter out noise and improve prediction accuracy. The integration of MFIS significantly improves the system’s performance, significantly reducing the root mean square error (RMSE) and mean absolute error (MAE), which are critical indicators of predictive accuracy. To validate the effectiveness and robustness of our method, we executed an extensive set of experiments , which affirm the superior performance of our model.
AB - This work presents a novel approach for dynamically optimizing the alpha–beta filter parameters through the Mamdani fuzzy inference system (MFIS) for industrial applications to estimate the state of dynamic systems based on sensor measurements. Our proposed method has two important components: the primary predictor utilizing the alpha–beta algorithm, and a rule-based mechanism leveraging the Mamdani fuzzy inference system. To illustrate our approach and simplify the demonstration, we selected two types of sensors: temperature and humidity. The model efficiently processes input from these sensors, refining the sensor data to filter out noise and improve prediction accuracy. The integration of MFIS significantly improves the system’s performance, significantly reducing the root mean square error (RMSE) and mean absolute error (MAE), which are critical indicators of predictive accuracy. To validate the effectiveness and robustness of our method, we executed an extensive set of experiments , which affirm the superior performance of our model.
U2 - 10.1016/j.aej.2025.01.116
DO - 10.1016/j.aej.2025.01.116
M3 - Journal article
VL - 119
SP - 598
EP - 608
JO - Alexandria Engineering Journal
JF - Alexandria Engineering Journal
SN - 1110-0168
ER -