可见光波段高温标定的简化方法OA北大核心CSTPCD
A simplified method for high temperature calibration in the visible light band
为了提高可见光波段(0.3 μm~0.9 μm)高温标定的效率,提出了可见光波段高温标定的简化方法.本文提出了带有曝光时间变量的可见光波段的高温标定模型,通过大量实验发现,RGB相机各个通道的灰度值不仅随曝光时间递增呈线性变化,且随黑体辐射亮度的递增也呈线性变化,进而确定了可见光波段高温标定模型的具体形式.为了求解简化后的可见光波段高温标定模型中的未知数,在两个黑体辐射亮度下,分别采集两个曝光时间下的图像数据,接着,对图像数据进行处理,便可以得到任意曝光时间下的RGB相机高温标定曲线.最后,对本文提出的简化可见光波段高温标定方法与常规按曝光时间进行可见光波段高温标定法进行比较.实验结果表明:R、G、B通道计算值与标定值的相对误差最大值分别为 3.38%、2.56%和-1.14%,且各通道的计算值与标定值的相对误差均未超过 3.50%.本文提出的数学模型可以有效地简化传统的高温标定法,进而大大缩短了高温标定时间,提高了高温标定的标定效率.
To improve the efficiency of high temperature calibration in the visible light band(0.3 μm~0.9 μm),a simplified method for high-temperature calibration is proposed.Firstly,a high-temperature calib-ration model in the visible light band with exposure time variable is proposed.Based on a large number of experimental data,it is found that the gray value of each channel of an RGB camera varies linearly not only with the increase of exposure time,but also with the increase of black-body radiation brightness.Thus,a spe-cific form of high-temperature calibration model in the visible light band is determined.To solve the un-knowns in the simplified high-temperature calibration model in the visible light band,image data at two dif-ferent exposure times are collected under two levels of black-body radiation brightness,and then the image data is processed to obtain the high-temperature calibration curve of the RGB camera under any exposure time.Finally,the simplified visible light band high-temperature calibration method proposed in this article is compared to the conventional visible light band high-temperature calibration method based on exposure time.The experimental results show that the maximum relative error between the calculated value of the R chan-nel,G channel,B channel and the calibrated values are 3.38%,2.56%,-1.14%.Moreover,the relative error between the calculated and the calibrated values for each channel does not exceed 3.50%.The mathematical model proposed in this article can effectively simplify the conventional high-temperature calibration method,resulting in a reduced high-temperature calibration time and improving the calibration efficiency.
李云龙;李周;孙志远;杨国庆
中国科学院长春光学精密机械与物理研究所,吉林长春 130033
能源与动力
可见光波段高温标定RGB相机曝光时间
visible light bandhigh temperature calibrationRGB cameraexposure time
《中国光学(中英文)》 2024 (003)
580-585 / 6
国家自然科学基金(No.6210031610)Supported by National Natural Science Foundation of China(No.6210031610)
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