X. Zhang, Q. Wang, J. Li, X. Zhou, Y. Yang, and H. Xu, “Estimating spectral reflectance from camera responses based on CIE XYZ tristimulus values under multi-illuminants,” Color Res. Appl. 42(1), 68–77 (2017).

B. Cao, N. Liao, and H. Cheng, “Spectral reflectance reconstruction from RGB images based on weighting smaller color difference group,” Color Res. Appl. 42(3), 327–332 (2017).

K. Xiao, Y. Zhu, C. Li, D. Connah, J. M. Yates, and S. Wuerger, “Improved method for skin reflectance reconstruction from camera images,” Opt. Express 24(13), 14934–14950 (2016).

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J. Liang, X. Wan, Q. Liu, C. Li, and J. Li, “Research on filter selection method for broadband spectral imaging system based on ancient murals,” Color Res. Appl. 41(6), 585–595 (2016).

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[PubMed]

H. Liang, “Advances in multispectral and hyperspectral imaging for archaeology and art conservation,” Appl. Phys., A Mater. Sci. Process. 106(2), 309–323 (2012).

P. Yuen and M. Richardson, “An introduction to hyperspectral imaging and its application for security, surveillance and target acquisition,” Imaging Sci. J. 58(5), 241–253 (2010).

Y. Zhao and R. S. Berns, “Image-based spectral reflectance reconstruction using the matrix R method,” Color Res. Appl. 32(5), 343–351 (2010).

H. Shen, H. Wan, and Z. Zhang, “Estimating reflectance from multispectral camera responses based on partial least-squares regression,” J. Electron. Imaging 19(2), 020501 (2010).

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J. Brauers, N. Schulte, and T. Aach, “Multispectral filter-wheel cameras: geometric distortion model and compensation algorithms,” IEEE Trans. Image Process. 17(12), 2368–2380 (2008).

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H. L. Shen, J. H. Xin, and S. J. Shao, “Improved reflectance reconstruction for multispectral imaging by combining different techniques,” Opt. Express 15(9), 5531–5536 (2007).

[PubMed]

V. Cheung and S. Westland, “Methods for optimal color selection,” J. Imaging Sci. Technol. 50(5), 481–488 (2006).

D. Connah and J. Y. Hardeberg, “Spectral recovery using polynomial models,” Proc. SPIE 5667, 65–75 (2005).

J. Y. Hardeberg, F. Schmitt, and H. Brettel, “Multispectral color image capture using a liquid crystal tunable filter,” Opt. Eng. 41(10), 2532–2548 (2002).

B. M. R. Luo, G. Cui, and B. Rigg, “The development of the CIE 2000 colour‐difference formula: CIEDE2000,” Color Res. Appl. 26(5), 340–350 (2001).

J. Brauers, N. Schulte, and T. Aach, “Multispectral filter-wheel cameras: geometric distortion model and compensation algorithms,” IEEE Trans. Image Process. 17(12), 2368–2380 (2008).

[PubMed]

D. F. Barbin, G. ElMasry, D. W. Sun, and P. Allen, “Predicting quality and sensory attributes of pork using near-infrared hyperspectral imaging,” Anal. Chim. Acta 719(10), 30–42 (2012).

[PubMed]

D. F. Barbin, G. ElMasry, D. W. Sun, and P. Allen, “Predicting quality and sensory attributes of pork using near-infrared hyperspectral imaging,” Anal. Chim. Acta 719(10), 30–42 (2012).

[PubMed]

Y. Zhao and R. S. Berns, “Image-based spectral reflectance reconstruction using the matrix R method,” Color Res. Appl. 32(5), 343–351 (2010).

S. Helling, E. Seidel, and W. Biehlig, “Algorithms for spectral color stimulus reconstruction with a seven-channel multispectral camera,” in Conference on Color in Graphics, Imaging and Vision (2004), pp. 254–258.

J. Brauers, N. Schulte, and T. Aach, “Multispectral filter-wheel cameras: geometric distortion model and compensation algorithms,” IEEE Trans. Image Process. 17(12), 2368–2380 (2008).

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J. Y. Hardeberg, F. Schmitt, and H. Brettel, “Multispectral color image capture using a liquid crystal tunable filter,” Opt. Eng. 41(10), 2532–2548 (2002).

N. L. Everdell, I. B. Styles, E. Claridge, J. C. Hebden, and A. S. Calcagni, “Multispectral imaging of the ocular fundus using LED illumination,” Proc. SPIE 7371, 73711C (2009).

B. Cao, N. Liao, and H. Cheng, “Spectral reflectance reconstruction from RGB images based on weighting smaller color difference group,” Color Res. Appl. 42(3), 327–332 (2017).

B. Cao, N. Liao, and H. Cheng, “Spectral reflectance reconstruction from RGB images based on weighting smaller color difference group,” Color Res. Appl. 42(3), 327–332 (2017).

V. Cheung and S. Westland, “Methods for optimal color selection,” J. Imaging Sci. Technol. 50(5), 481–488 (2006).

N. L. Everdell, I. B. Styles, E. Claridge, J. C. Hebden, and A. S. Calcagni, “Multispectral imaging of the ocular fundus using LED illumination,” Proc. SPIE 7371, 73711C (2009).

K. Xiao, Y. Zhu, C. Li, D. Connah, J. M. Yates, and S. Wuerger, “Improved method for skin reflectance reconstruction from camera images,” Opt. Express 24(13), 14934–14950 (2016).

[PubMed]

D. Connah and J. Y. Hardeberg, “Spectral recovery using polynomial models,” Proc. SPIE 5667, 65–75 (2005).

B. M. R. Luo, G. Cui, and B. Rigg, “The development of the CIE 2000 colour‐difference formula: CIEDE2000,” Color Res. Appl. 26(5), 340–350 (2001).

C. Li, G. Cui, and M. R. Luo, “The accuracy of polynomial models for characterizing digital cameras,” in Proceedings of AIC2003 Bangkok: Color Communication and Management (2003), pp. 166–170.

D. F. Barbin, G. ElMasry, D. W. Sun, and P. Allen, “Predicting quality and sensory attributes of pork using near-infrared hyperspectral imaging,” Anal. Chim. Acta 719(10), 30–42 (2012).

[PubMed]

N. L. Everdell, I. B. Styles, E. Claridge, J. C. Hebden, and A. S. Calcagni, “Multispectral imaging of the ocular fundus using LED illumination,” Proc. SPIE 7371, 73711C (2009).

S. Han, I. Sato, T. Okabe, and Y. Sato, “Fast spectral reflectance recovery using DLP projector,” in Asian Conference on Computer Vision (2010), pp. 323–335.

D. Connah and J. Y. Hardeberg, “Spectral recovery using polynomial models,” Proc. SPIE 5667, 65–75 (2005).

J. Y. Hardeberg, F. Schmitt, and H. Brettel, “Multispectral color image capture using a liquid crystal tunable filter,” Opt. Eng. 41(10), 2532–2548 (2002).

N. L. Everdell, I. B. Styles, E. Claridge, J. C. Hebden, and A. S. Calcagni, “Multispectral imaging of the ocular fundus using LED illumination,” Proc. SPIE 7371, 73711C (2009).

S. Helling, E. Seidel, and W. Biehlig, “Algorithms for spectral color stimulus reconstruction with a seven-channel multispectral camera,” in Conference on Color in Graphics, Imaging and Vision (2004), pp. 254–258.

J. Liang, X. Wan, Q. Liu, C. Li, and J. Li, “Research on filter selection method for broadband spectral imaging system based on ancient murals,” Color Res. Appl. 41(6), 585–595 (2016).

K. Xiao, Y. Zhu, C. Li, D. Connah, J. M. Yates, and S. Wuerger, “Improved method for skin reflectance reconstruction from camera images,” Opt. Express 24(13), 14934–14950 (2016).

[PubMed]

C. Li, G. Cui, and M. R. Luo, “The accuracy of polynomial models for characterizing digital cameras,” in Proceedings of AIC2003 Bangkok: Color Communication and Management (2003), pp. 166–170.

H. Li, Z. Wu, L. Zhang, and J. Parkkinen, “SR-LLA: A novel spectral reconstruction method based on locally linear approximation,” inProceedings of IEEE Conference on Image Processing (IEEE, 2013), pp. 2029–2033.

X. Zhang, Q. Wang, J. Li, X. Zhou, Y. Yang, and H. Xu, “Estimating spectral reflectance from camera responses based on CIE XYZ tristimulus values under multi-illuminants,” Color Res. Appl. 42(1), 68–77 (2017).

J. Liang, X. Wan, Q. Liu, C. Li, and J. Li, “Research on filter selection method for broadband spectral imaging system based on ancient murals,” Color Res. Appl. 41(6), 585–595 (2016).

H. Liang, “Advances in multispectral and hyperspectral imaging for archaeology and art conservation,” Appl. Phys., A Mater. Sci. Process. 106(2), 309–323 (2012).

J. Liang, X. Wan, Q. Liu, C. Li, and J. Li, “Research on filter selection method for broadband spectral imaging system based on ancient murals,” Color Res. Appl. 41(6), 585–595 (2016).

B. Cao, N. Liao, and H. Cheng, “Spectral reflectance reconstruction from RGB images based on weighting smaller color difference group,” Color Res. Appl. 42(3), 327–332 (2017).

J. Liang, X. Wan, Q. Liu, C. Li, and J. Li, “Research on filter selection method for broadband spectral imaging system based on ancient murals,” Color Res. Appl. 41(6), 585–595 (2016).

B. M. R. Luo, G. Cui, and B. Rigg, “The development of the CIE 2000 colour‐difference formula: CIEDE2000,” Color Res. Appl. 26(5), 340–350 (2001).

C. Li, G. Cui, and M. R. Luo, “The accuracy of polynomial models for characterizing digital cameras,” in Proceedings of AIC2003 Bangkok: Color Communication and Management (2003), pp. 166–170.

S. Han, I. Sato, T. Okabe, and Y. Sato, “Fast spectral reflectance recovery using DLP projector,” in Asian Conference on Computer Vision (2010), pp. 323–335.

V. Heikkinen, T. Jetsu, J. Parkkinen, M. Hauta-Kasari, T. Jaaskelainen, and S. D. Lee, “Regularized learning framework in the estimation of reflectance spectra from camera responses,” J. Opt. Soc. Am. A 24(9), 2673–2683 (2007).

[PubMed]

H. Li, Z. Wu, L. Zhang, and J. Parkkinen, “SR-LLA: A novel spectral reconstruction method based on locally linear approximation,” inProceedings of IEEE Conference on Image Processing (IEEE, 2013), pp. 2029–2033.

P. Yuen and M. Richardson, “An introduction to hyperspectral imaging and its application for security, surveillance and target acquisition,” Imaging Sci. J. 58(5), 241–253 (2010).

B. M. R. Luo, G. Cui, and B. Rigg, “The development of the CIE 2000 colour‐difference formula: CIEDE2000,” Color Res. Appl. 26(5), 340–350 (2001).

S. Han, I. Sato, T. Okabe, and Y. Sato, “Fast spectral reflectance recovery using DLP projector,” in Asian Conference on Computer Vision (2010), pp. 323–335.

S. Han, I. Sato, T. Okabe, and Y. Sato, “Fast spectral reflectance recovery using DLP projector,” in Asian Conference on Computer Vision (2010), pp. 323–335.

J. Y. Hardeberg, F. Schmitt, and H. Brettel, “Multispectral color image capture using a liquid crystal tunable filter,” Opt. Eng. 41(10), 2532–2548 (2002).

J. Brauers, N. Schulte, and T. Aach, “Multispectral filter-wheel cameras: geometric distortion model and compensation algorithms,” IEEE Trans. Image Process. 17(12), 2368–2380 (2008).

[PubMed]

S. Helling, E. Seidel, and W. Biehlig, “Algorithms for spectral color stimulus reconstruction with a seven-channel multispectral camera,” in Conference on Color in Graphics, Imaging and Vision (2004), pp. 254–258.

H. Shen, H. Wan, and Z. Zhang, “Estimating reflectance from multispectral camera responses based on partial least-squares regression,” J. Electron. Imaging 19(2), 020501 (2010).

N. L. Everdell, I. B. Styles, E. Claridge, J. C. Hebden, and A. S. Calcagni, “Multispectral imaging of the ocular fundus using LED illumination,” Proc. SPIE 7371, 73711C (2009).

D. F. Barbin, G. ElMasry, D. W. Sun, and P. Allen, “Predicting quality and sensory attributes of pork using near-infrared hyperspectral imaging,” Anal. Chim. Acta 719(10), 30–42 (2012).

[PubMed]

S. Tominaga and N. Tanaka, “Spectral image acquisition, analysis, and rendering for art paintings,” J. Electron. Imaging 17(4), 043022 (2008).

S. Tominaga and N. Tanaka, “Spectral image acquisition, analysis, and rendering for art paintings,” J. Electron. Imaging 17(4), 043022 (2008).

H. Shen, H. Wan, and Z. Zhang, “Estimating reflectance from multispectral camera responses based on partial least-squares regression,” J. Electron. Imaging 19(2), 020501 (2010).

J. Liang, X. Wan, Q. Liu, C. Li, and J. Li, “Research on filter selection method for broadband spectral imaging system based on ancient murals,” Color Res. Appl. 41(6), 585–595 (2016).

X. Zhang, Q. Wang, J. Li, X. Zhou, Y. Yang, and H. Xu, “Estimating spectral reflectance from camera responses based on CIE XYZ tristimulus values under multi-illuminants,” Color Res. Appl. 42(1), 68–77 (2017).

V. Cheung and S. Westland, “Methods for optimal color selection,” J. Imaging Sci. Technol. 50(5), 481–488 (2006).

H. Li, Z. Wu, L. Zhang, and J. Parkkinen, “SR-LLA: A novel spectral reconstruction method based on locally linear approximation,” inProceedings of IEEE Conference on Image Processing (IEEE, 2013), pp. 2029–2033.

X. Zhang, Q. Wang, J. Li, X. Zhou, Y. Yang, and H. Xu, “Estimating spectral reflectance from camera responses based on CIE XYZ tristimulus values under multi-illuminants,” Color Res. Appl. 42(1), 68–77 (2017).

X. Zhang, Q. Wang, J. Li, X. Zhou, Y. Yang, and H. Xu, “Estimating spectral reflectance from camera responses based on CIE XYZ tristimulus values under multi-illuminants,” Color Res. Appl. 42(1), 68–77 (2017).

P. Yuen and M. Richardson, “An introduction to hyperspectral imaging and its application for security, surveillance and target acquisition,” Imaging Sci. J. 58(5), 241–253 (2010).

H. Li, Z. Wu, L. Zhang, and J. Parkkinen, “SR-LLA: A novel spectral reconstruction method based on locally linear approximation,” inProceedings of IEEE Conference on Image Processing (IEEE, 2013), pp. 2029–2033.

X. Zhang, Q. Wang, J. Li, X. Zhou, Y. Yang, and H. Xu, “Estimating spectral reflectance from camera responses based on CIE XYZ tristimulus values under multi-illuminants,” Color Res. Appl. 42(1), 68–77 (2017).

H. Shen, H. Wan, and Z. Zhang, “Estimating reflectance from multispectral camera responses based on partial least-squares regression,” J. Electron. Imaging 19(2), 020501 (2010).

Y. Zhao and R. S. Berns, “Image-based spectral reflectance reconstruction using the matrix R method,” Color Res. Appl. 32(5), 343–351 (2010).

X. Zhang, Q. Wang, J. Li, X. Zhou, Y. Yang, and H. Xu, “Estimating spectral reflectance from camera responses based on CIE XYZ tristimulus values under multi-illuminants,” Color Res. Appl. 42(1), 68–77 (2017).

D. F. Barbin, G. ElMasry, D. W. Sun, and P. Allen, “Predicting quality and sensory attributes of pork using near-infrared hyperspectral imaging,” Anal. Chim. Acta 719(10), 30–42 (2012).

[PubMed]

H. Liang, “Advances in multispectral and hyperspectral imaging for archaeology and art conservation,” Appl. Phys., A Mater. Sci. Process. 106(2), 309–323 (2012).

B. M. R. Luo, G. Cui, and B. Rigg, “The development of the CIE 2000 colour‐difference formula: CIEDE2000,” Color Res. Appl. 26(5), 340–350 (2001).

B. Cao, N. Liao, and H. Cheng, “Spectral reflectance reconstruction from RGB images based on weighting smaller color difference group,” Color Res. Appl. 42(3), 327–332 (2017).

Y. Zhao and R. S. Berns, “Image-based spectral reflectance reconstruction using the matrix R method,” Color Res. Appl. 32(5), 343–351 (2010).

X. Zhang, Q. Wang, J. Li, X. Zhou, Y. Yang, and H. Xu, “Estimating spectral reflectance from camera responses based on CIE XYZ tristimulus values under multi-illuminants,” Color Res. Appl. 42(1), 68–77 (2017).

J. Liang, X. Wan, Q. Liu, C. Li, and J. Li, “Research on filter selection method for broadband spectral imaging system based on ancient murals,” Color Res. Appl. 41(6), 585–595 (2016).

J. Brauers, N. Schulte, and T. Aach, “Multispectral filter-wheel cameras: geometric distortion model and compensation algorithms,” IEEE Trans. Image Process. 17(12), 2368–2380 (2008).

[PubMed]

P. Yuen and M. Richardson, “An introduction to hyperspectral imaging and its application for security, surveillance and target acquisition,” Imaging Sci. J. 58(5), 241–253 (2010).

S. Tominaga and N. Tanaka, “Spectral image acquisition, analysis, and rendering for art paintings,” J. Electron. Imaging 17(4), 043022 (2008).

H. Shen, H. Wan, and Z. Zhang, “Estimating reflectance from multispectral camera responses based on partial least-squares regression,” J. Electron. Imaging 19(2), 020501 (2010).

V. Cheung and S. Westland, “Methods for optimal color selection,” J. Imaging Sci. Technol. 50(5), 481–488 (2006).

J. Y. Hardeberg, F. Schmitt, and H. Brettel, “Multispectral color image capture using a liquid crystal tunable filter,” Opt. Eng. 41(10), 2532–2548 (2002).

K. Xiao, Y. Zhu, C. Li, D. Connah, J. M. Yates, and S. Wuerger, “Improved method for skin reflectance reconstruction from camera images,” Opt. Express 24(13), 14934–14950 (2016).

[PubMed]

H. L. Shen, J. H. Xin, and S. J. Shao, “Improved reflectance reconstruction for multispectral imaging by combining different techniques,” Opt. Express 15(9), 5531–5536 (2007).

[PubMed]

D. Connah and J. Y. Hardeberg, “Spectral recovery using polynomial models,” Proc. SPIE 5667, 65–75 (2005).

N. L. Everdell, I. B. Styles, E. Claridge, J. C. Hebden, and A. S. Calcagni, “Multispectral imaging of the ocular fundus using LED illumination,” Proc. SPIE 7371, 73711C (2009).

S. Han, I. Sato, T. Okabe, and Y. Sato, “Fast spectral reflectance recovery using DLP projector,” in Asian Conference on Computer Vision (2010), pp. 323–335.

S. Helling, E. Seidel, and W. Biehlig, “Algorithms for spectral color stimulus reconstruction with a seven-channel multispectral camera,” in Conference on Color in Graphics, Imaging and Vision (2004), pp. 254–258.

R. S. Berns and L. A. Taplin, “Practical Spectral Imaging Using a Color-Filter Array Digital Camera,” (Final Report, 2006), http://art-si.org/PDFs/Acquisition/TR_Practical_Spectral_Imaging.pdf .

H. Li, Z. Wu, L. Zhang, and J. Parkkinen, “SR-LLA: A novel spectral reconstruction method based on locally linear approximation,” inProceedings of IEEE Conference on Image Processing (IEEE, 2013), pp. 2029–2033.

C. Li, G. Cui, and M. R. Luo, “The accuracy of polynomial models for characterizing digital cameras,” in Proceedings of AIC2003 Bangkok: Color Communication and Management (2003), pp. 166–170.