Abstract:Detection of gas temperature with tunable diode laser absorption spectroscopy (TDLAS) is easily affected by the high-frequency noise of detector and hardware circuit. The principal component analysis method commonly used in spectral image denoising is applied to the high frequency noise elimination of absorbance column vector data, and a denoising method based on principal component analysis is proposed. Firstly, the original absorbance column vector is arranged in a matrix. Then it is decomposed into the main component matrix and the score matrix through principal component analysis. The appropriate principal component score is taken, and the intercepted part of the principal component matrix and score matrix are used to reconstruct the original data. The intercepted principal component represents the main information of the original data, while the eliminated part only contains noise information. Experimental results show that this method is used for TDLAS to measure water vapor temperature, and the noise removal rate is 81% and the standard deviation of single temperature calculation is reduced from 8.9 to 5.3.
常海涛,蔡静,温悦,朱玉梅. 一种基于主成分分析的TDLAS高频噪声滤波[J]. 计量学报, 2022, 43(10): 1279-1284.
CHANG Hai-tao,CAI Jing,WEN Yue,ZHU Yu-mei. A Principal Component Analysis Method for TDLAS to Remove High Frequency Noise. Acta Metrologica Sinica, 2022, 43(10): 1279-1284.
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