Accurate SOC Estimation for Zinc-Bromine Flow Batteries Under Sampling Mismatch Using an Improved Adaptive Extended Kalman Filter

Kaiwen Peng; Liguo Wang; Denis Sidorov; Aliona Dreglea

doi:10.1109/ICCEPE66357.2025.11193168

Accurate SOC Estimation for Zinc-Bromine Flow Batteries Under Sampling Mismatch Using an Improved Adaptive Extended Kalman Filter

Kaiwen Peng
, Liguo Wang^*
, Denis Sidorov
, Aliona Dreglea

^*Corresponding author for this work

School of Electrical Engineering and Automation, Harbin Institute of Technology
Melent'ev Institute of Power Engineering Systems

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

ance the accuracy of state of charge (SOC) To enhance the flow batteries, this study addresses estimation for zinc-brommetry between their charging and the pronounced asymmery discharging behaviors. An improved adaptive extended Kalman filter (AEKF) is proposed specifically for the charging phase. The method introduces a sliding-window cross-entropy criterion along with two diagnostic mechanisms to effectively identify SOC initialization errors and sampling mismatches. Based on the identified anomaly types, the algorithm adaptively adjusts the process and measurement noise covariance matrices, enabling dynamic confidence assignment to observation signals. This targeted adjustment significantly improves estimation robustness and accuracy under practical operating conditions. Simulation results demonstrate that the proposed method outperforms the fixed covariance EKF in scenarios involving the initial SOC deviation and sampling mismatch.

Original language	English
Title of host publication	2025 6th International Conference on Clean Energy and Electric Power Engineering, ICCEPE 2025
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	51-56
Number of pages	6
ISBN (Electronic)	9798331503840
DOIs	https://doi.org/10.1109/ICCEPE66357.2025.11193168
State	Published - 2025
Externally published	Yes
Event	6th International Conference on Clean Energy and Electric Power Engineering, ICCEPE 2025 - Yangzhou, China Duration: 15 Aug 2025 → 17 Aug 2025

Publication series

Name	2025 6th International Conference on Clean Energy and Electric Power Engineering, ICCEPE 2025

Conference

Conference	6th International Conference on Clean Energy and Electric Power Engineering, ICCEPE 2025
Country/Territory	China
City	Yangzhou
Period	15/08/25 → 17/08/25

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords

Adaptive extended Kalman filter
Sampling mismatch
State of charge estimation
Zinc-bromine flow battery

Access to Document

10.1109/ICCEPE66357.2025.11193168

Cite this

Peng, K., Wang, L., Sidorov, D., & Dreglea, A. (2025). Accurate SOC Estimation for Zinc-Bromine Flow Batteries Under Sampling Mismatch Using an Improved Adaptive Extended Kalman Filter. In 2025 6th International Conference on Clean Energy and Electric Power Engineering, ICCEPE 2025 (pp. 51-56). (2025 6th International Conference on Clean Energy and Electric Power Engineering, ICCEPE 2025). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/ICCEPE66357.2025.11193168

Peng, Kaiwen ; Wang, Liguo ; Sidorov, Denis et al. / Accurate SOC Estimation for Zinc-Bromine Flow Batteries Under Sampling Mismatch Using an Improved Adaptive Extended Kalman Filter. 2025 6th International Conference on Clean Energy and Electric Power Engineering, ICCEPE 2025. Institute of Electrical and Electronics Engineers Inc., 2025. pp. 51-56 (2025 6th International Conference on Clean Energy and Electric Power Engineering, ICCEPE 2025).

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title = "Accurate SOC Estimation for Zinc-Bromine Flow Batteries Under Sampling Mismatch Using an Improved Adaptive Extended Kalman Filter",

abstract = "ance the accuracy of state of charge (SOC) To enhance the flow batteries, this study addresses estimation for zinc-brommetry between their charging and the pronounced asymmery discharging behaviors. An improved adaptive extended Kalman filter (AEKF) is proposed specifically for the charging phase. The method introduces a sliding-window cross-entropy criterion along with two diagnostic mechanisms to effectively identify SOC initialization errors and sampling mismatches. Based on the identified anomaly types, the algorithm adaptively adjusts the process and measurement noise covariance matrices, enabling dynamic confidence assignment to observation signals. This targeted adjustment significantly improves estimation robustness and accuracy under practical operating conditions. Simulation results demonstrate that the proposed method outperforms the fixed covariance EKF in scenarios involving the initial SOC deviation and sampling mismatch.",

keywords = "Adaptive extended Kalman filter, Sampling mismatch, State of charge estimation, Zinc-bromine flow battery",

author = "Kaiwen Peng and Liguo Wang and Denis Sidorov and Aliona Dreglea",

note = "Publisher Copyright: {\textcopyright} 2025 IEEE.; 6th International Conference on Clean Energy and Electric Power Engineering, ICCEPE 2025 ; Conference date: 15-08-2025 Through 17-08-2025",

year = "2025",

doi = "10.1109/ICCEPE66357.2025.11193168",

language = "英语",

series = "2025 6th International Conference on Clean Energy and Electric Power Engineering, ICCEPE 2025",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

pages = "51--56",

booktitle = "2025 6th International Conference on Clean Energy and Electric Power Engineering, ICCEPE 2025",

address = "美国",

}

Peng, K, Wang, L , Sidorov, D & Dreglea, A 2025, Accurate SOC Estimation for Zinc-Bromine Flow Batteries Under Sampling Mismatch Using an Improved Adaptive Extended Kalman Filter. in 2025 6th International Conference on Clean Energy and Electric Power Engineering, ICCEPE 2025. 2025 6th International Conference on Clean Energy and Electric Power Engineering, ICCEPE 2025, Institute of Electrical and Electronics Engineers Inc., pp. 51-56, 6th International Conference on Clean Energy and Electric Power Engineering, ICCEPE 2025, Yangzhou, China, 15/08/25. https://doi.org/10.1109/ICCEPE66357.2025.11193168

Accurate SOC Estimation for Zinc-Bromine Flow Batteries Under Sampling Mismatch Using an Improved Adaptive Extended Kalman Filter. / Peng, Kaiwen; Wang, Liguo ; Sidorov, Denis et al.
2025 6th International Conference on Clean Energy and Electric Power Engineering, ICCEPE 2025. Institute of Electrical and Electronics Engineers Inc., 2025. p. 51-56 (2025 6th International Conference on Clean Energy and Electric Power Engineering, ICCEPE 2025).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Accurate SOC Estimation for Zinc-Bromine Flow Batteries Under Sampling Mismatch Using an Improved Adaptive Extended Kalman Filter

AU - Peng, Kaiwen

AU - Wang, Liguo

AU - Sidorov, Denis

AU - Dreglea, Aliona

PY - 2025

Y1 - 2025

N2 - ance the accuracy of state of charge (SOC) To enhance the flow batteries, this study addresses estimation for zinc-brommetry between their charging and the pronounced asymmery discharging behaviors. An improved adaptive extended Kalman filter (AEKF) is proposed specifically for the charging phase. The method introduces a sliding-window cross-entropy criterion along with two diagnostic mechanisms to effectively identify SOC initialization errors and sampling mismatches. Based on the identified anomaly types, the algorithm adaptively adjusts the process and measurement noise covariance matrices, enabling dynamic confidence assignment to observation signals. This targeted adjustment significantly improves estimation robustness and accuracy under practical operating conditions. Simulation results demonstrate that the proposed method outperforms the fixed covariance EKF in scenarios involving the initial SOC deviation and sampling mismatch.

AB - ance the accuracy of state of charge (SOC) To enhance the flow batteries, this study addresses estimation for zinc-brommetry between their charging and the pronounced asymmery discharging behaviors. An improved adaptive extended Kalman filter (AEKF) is proposed specifically for the charging phase. The method introduces a sliding-window cross-entropy criterion along with two diagnostic mechanisms to effectively identify SOC initialization errors and sampling mismatches. Based on the identified anomaly types, the algorithm adaptively adjusts the process and measurement noise covariance matrices, enabling dynamic confidence assignment to observation signals. This targeted adjustment significantly improves estimation robustness and accuracy under practical operating conditions. Simulation results demonstrate that the proposed method outperforms the fixed covariance EKF in scenarios involving the initial SOC deviation and sampling mismatch.

KW - Adaptive extended Kalman filter

KW - Sampling mismatch

KW - State of charge estimation

KW - Zinc-bromine flow battery

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U2 - 10.1109/ICCEPE66357.2025.11193168

DO - 10.1109/ICCEPE66357.2025.11193168

M3 - 会议稿件

AN - SCOPUS:105020937645

T3 - 2025 6th International Conference on Clean Energy and Electric Power Engineering, ICCEPE 2025

SP - 51

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BT - 2025 6th International Conference on Clean Energy and Electric Power Engineering, ICCEPE 2025

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 6th International Conference on Clean Energy and Electric Power Engineering, ICCEPE 2025

Y2 - 15 August 2025 through 17 August 2025

ER -

Peng K, Wang L , Sidorov D , Dreglea A. Accurate SOC Estimation for Zinc-Bromine Flow Batteries Under Sampling Mismatch Using an Improved Adaptive Extended Kalman Filter. In 2025 6th International Conference on Clean Energy and Electric Power Engineering, ICCEPE 2025. Institute of Electrical and Electronics Engineers Inc. 2025. p. 51-56. (2025 6th International Conference on Clean Energy and Electric Power Engineering, ICCEPE 2025). doi: 10.1109/ICCEPE66357.2025.11193168

Accurate SOC Estimation for Zinc-Bromine Flow Batteries Under Sampling Mismatch Using an Improved Adaptive Extended Kalman Filter

Abstract

Publication series

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UN SDGs

Keywords

Access to Document

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