@ARTICLE{Huang_De_An_2019, author={Huang, De and Liu, Jian and Deng, Lijun and Li, Xuebing and Song, Ying}, volume={vol. 64}, number={No 4}, journal={Archives of Mining Sciences}, pages={813-827}, howpublished={online}, year={2019}, publisher={Committee of Mining PAS}, abstract={The underground complicated testing environment and the fan operation instability cause large random errors and outliers of the wind speed signals. The outliers and large random errors result in distortion of mine wind speed monitoring, which possesses safety hazards in mine ventilation system. Application of Kalman filter in velocity monitoring can improve the accuracy of velocity measurement and eliminate the outliers. Adaptive Kalman Filter was built by automatically adjusting process noise covariance and measurement noise covariance depending on the differences between measured and expected speed signals. We analyzed the fluctuation of airflow flow using data of wind speed flow and distribution characteristics of the tunnel obtained by the Laser Doppler Velocimetry system (LDV) studies. A state-space model was built based on the tunnel airflow fluctuations and wind speed signal distribution. The adaptive Kalman Filter was calculated according to the actual measurement data and the Expectation Maximization (EM) algorithm. The adaptive Kalman filter was used to shield fluid pulsation while preserving system-induced fluctuations. Using the Kalman filter to treat offline wind speed signal acquired by LDV, the reliability of Kalman filter wind speed state model and the characteristics of adaptive Kalman Filter were investigated. Results showed that the adaptive Kalman filter effectively eliminated the outliers and reduced the root-mean-squares error (RMSE), and the adaptive Kalman filter had better performance than the traditional Kalman filter in eliminating outliers and reducing RMSE. Field experiments in online wind speed monitoring were conducted using the optimized adaptive Kalman Filter. Results showed that adaptive Kalman filter treatment could monitor the wind speed with smaller RMSE compared with LVD monitor. The study data demonstrated that the adaptive Kalman filter is reliable and suitable for online signal processing of mine wind speed monitor.}, type={Article}, title={An Adaptive Kalman Filter for Online Monitoring of Mine Wind Speed}, URL={http://journals.pan.pl/Content/114476/PDF/Archiwum-64-4-12-Liu.pdf}, doi={10.24425/ams.2019.131068}, keywords={mine wind speed, Laser doppler velocimetry, Kalman filter, expectation maximization algorithm, online monitoring}, }