Xiukai Ruan scite author profile

For the correlated color temperature (CCT) of a light source to be estimated, a nonlinear optimization problem must be solved. In all previous methods available to compute CCT, the objective function has only been approximated, and their predictions have achieved limited accuracy. For example, different unacceptable CCT values have been predicted for light sources located on the same isotemperature line. In this paper, we propose to compute CCT using the Newton method, which requires the first and second derivatives of the objective function. Following the current recommendation by the International Commission on Illumination (CIE) for the computation of tristimulus values (summations at 1 nm steps from 360 nm to 830 nm), the objective function and its first and second derivatives are explicitly given and used in our computations. Comprehensive tests demonstrate that the proposed method, together with an initial estimation of CCT using Robertson's method [J. Opt. Soc. Am. 58, 1528-1535 (1968)], gives highly accurate predictions below 0.0012 K for light sources with CCTs ranging from 500 K to 10⁶ K.

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Theoretical analysis of improved efficiency of silicon-wafer solar cells with textured nanotriangular grating structure

Zhang

Zheng

Zhao

et al. 2018

Optics Communications

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Xiukai Ruan

Edge QoE: Computation Offloading With Deep Reinforcement Learning for Internet of Things

A consensus successive projections algorithm – multiple linear regression method for analyzing near infrared spectra

Enhancement of silicon-wafer solar cell efficiency with low-cost wrinkle antireflection coating of polydimethylsiloxane

Accurate method for computing correlated color temperature

Theoretical analysis of improved efficiency of silicon-wafer solar cells with textured nanotriangular grating structure

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