Color matching method of color spinning based on neural network
A neural network and BP neural network technology, applied in the field of textile color matching, can solve problems such as poor generalization ability and poor applicability
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Embodiment 1
[0051] This embodiment relates to a method for color-spun yarn color matching based on a neural network. The main steps include: (1) measuring the reflectance of the standard sample (R5B95) and converting it into a model reflectance; the measurement uses a Datacolor600 spectrophotometer with a wavelength range of 400 ~700nm, the wavelength interval is 10nm. use R s1 Indicates that the R s1 Substitute into the formula (1) of the color matching model, and convert it into the reflectance of the standard sample model F(R s1 ). (2) Use the BP neural network to calculate the weight-average model reflectance Fw(Rs1); take F(Rs1) as the input layer, apply the trained BP neural network to calculate, and obtain Fw(Rs1), (3) use the constrained least squares The multiplication algorithm is used to obtain the prediction scheme of formula C; the weight-average model reflectance Fw(Rs1) is fitted with the monochromatic model reflectance F(Ri), and the calculation is performed under the c...
Embodiment 2
[0053] This embodiment relates to a color-spinning color matching method based on a neural network. The main steps include: (1) measuring the reflectance of the standard sample (Y25G75) and converting it into a model reflectance; the measurement uses a Datacolor600 spectrophotometer with a wavelength range of 400 ~700nm, the wavelength interval is 10nm. It is represented by Rs2, and Rs2 is substituted into the color matching model formula (1) to convert it into the reflectance F(Rs2) of the standard sample model. (2) Use the BP neural network to calculate the weight-average model reflectance Fw(Rs2); take F(Rs2) as the input layer, apply the trained BP neural network to calculate, and obtain Fw(Rs2), (3) use the constrained least squares Multiplication algorithm to obtain the prediction scheme of formula C; use the monochrome model reflectance F(Ri) to fit the weight average model reflectance Fw(Rs2), and perform calculations under the constraint conditions to obtain formula C...
Embodiment 3
[0055] This embodiment relates to a color-matching method for color spinning yarn based on neural network. The main steps include: (1) measuring the reflectance of the standard sample (W45D55) and converting it into a model reflectance; the measurement uses a Datacolor600 spectrophotometer with a wavelength range of 400 ~700nm, the wavelength interval is 10nm. It is represented by Rs3, and Rs3 is substituted into the color matching model formula (1) to convert it into the standard sample model reflectance F(Rs3). (2) Use the BP neural network to calculate the weight-average model reflectance Fw(Rs3); take F(Rs3) as the input layer, apply the trained BP neural network to calculate, and obtain Fw(Rs3), (3) use the constrained least squares The multiplication algorithm is used to obtain the prediction scheme of formula C; the weight-average model reflectance Fw(R) is fitted with the monochrome model reflectance F(Ri), and the calculation is performed under the constraint conditio...
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