基于优化基函数的相机滤镜设计

Chenyu Zhang
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摘要

彩色相机广泛应用于印刷工业、图形艺术、医疗、环境等诸多领域。在节省成本的前提下,为了保证相机的显色效果尽可能接近人眼成像,提出了一种利用彩色滤光片对彩色相机的总光谱响应曲线进行校正的方法。校正的原则是使系统的总光谱响应满足路德条件。通过添加这样的滤光片,调整后的相机感光度函数可以非常接近于人类视觉系统的配色函数的某种线性变换。由于制造工艺的原因,所生产的滤光片透光率只能是一条光滑的曲线。从影响滤波器仿真精度的因素出发,在基函数组合的计算过程中将滤波器的透射率表示为一定的平滑度。不同的基函数会导致不同的结果。本文采用离散余弦变换基函数、多项式基函数、傅立叶基函数和径向基函数进行实验。在每个基函数的条件下,得到相应的最优光谱透过率曲线。以国际照明委员会推荐的14种标准测试颜色为参考,采用CIE1976色差公式计算不同基函数条件下校正后的相机理论色差。最后,从Vora-Value、NRMSE和色差三个指标对基函数的性能进行评价。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Camera filter design based on optimized basis functions
Color cameras are widely used in many fields such as printing industry, graphic arts, medical treatment, and environment. On the premise of saving cost, in order to ensure that the color rendering effect of the camera is as close as possible to the imaging of the human eye, a method of using color filters to correct the total spectral response curve of the color camera is proposed. The principle of correction is to make the total spectral response of the system meet the Luther condition. By adding such a filter, the adjusted camera sensitivity function can be very close to a certain linear transformation of the color matching function of the human visual system. Due to the manufacturing process, the transmittance of the produced filter can only be a smooth curve. Starting from the factors that affect the accuracy of the filter simulation, we express the transmittance of the filter as a certain smoothness in the calculation process combination of basis functions. Different basis functions will lead to different results. Here we use discrete cosine transform basis functions, polynomial basis functions, Fourier basis functions and radial basis functions to conduct experiments. Under the condition of each basis function, a corresponding optimal spectral transmittance curve will be obtained. Taking the 14 standard test colors recommended by the International Commission of Illumination as a reference, the CIE1976 color difference formula is used to calculate the theoretical color difference of the corrected camera under the condition of different basis functions. Finally, the performance of the basis function is evaluated from three indicators: Vora-Value, NRMSE and color difference.
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