Improvement of doses rate prediction using the Kalman Filter-based algorithm and effective decay constant correction

This study proposes an algorithm that combines a Kalman Filter method with effective decay constant correction to improve the accuracy of predicting radiation dose rate distribution during emergencies. The algorithm addresses the limitations of relying solely on measurement data by incorporating cal...

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Veröffentlicht in:	Nuclear engineering and technology 2024, Vol.56 (7), p.2659-2665
Hauptverfasser:	Cheol-Woo Lee, Hyo Jun Jeong, Sol Jeong, Moon Hee Han
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container_end_page	2665
container_issue	7
container_start_page	2659
container_title	Nuclear engineering and technology
container_volume	56
creator	Cheol-Woo Lee Hyo Jun Jeong Sol Jeong Moon Hee Han
description	This study proposes an algorithm that combines a Kalman Filter method with effective decay constant correction to improve the accuracy of predicting radiation dose rate distribution during emergencies. The algorithm addresses the limitations of relying solely on measurement data by incorporating calculation data and refining the estimations. The effectiveness of algorithm was assessed using hypothetical test scenarios, which demonstrated a significant improvement in the accuracy of dose rate prediction compared to the model predictions. The estimates generated by the algorithm showed a good agreement with the measured data, and the discrepancies tend to decrease over time. Furthermore, the application of the effective decay constant correction accelerated the reduction of prediction errors. In conclusion, it was confirmed that the combined use of the Kalman filter method and effective decay constant correction is an effective approach to improve the accuracy of dose rate prediction.
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title	Improvement of doses rate prediction using the Kalman Filter-based algorithm and effective decay constant correction
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