REFERENCES
- Shrimpton, D.H. The nutritive value of eggs and their dietary significance. In: Egg Quality-current Problems and Recent Advances; Wells, R.G.; Belyavin, C.G.; Eds.; Butterworth: Toronto, 1987.
- Robinson, D.S.; Mosey, J.B. Changes in the composition of ovomucin during liquifation of thick white. Journal of the Science of Food and Agriculture 1972, 23, 29–38.
- Roberts, J.R. Factors affecting egg internal quality and egg shell quality in laying hens. Journal of Poultry Science 2004, 41, 161–177.
- Scott, T.A.; Silversides, F.G. The effect of storage and strain of hen on egg quality. Poultry Science 2000, 79, 1725–1729.
- Silversides, F.G.; Scott, T.A. Effect of storage and layer age on quality of eggs from two lines of hens. Poultry Science 2001, 80, 1240–1245.
- Ragni, L.; Gradari, P.; Berardinelli, A.; Giunchi, A.; Guarnieri, A.; Predicting quality parameter of shell eggs using a simple technique based on the dielectric properties. Biosystems Engineering 2006, 94 (2), 255–262.
- Dutta, R.; Hines, E.L.; Gardner, J.W.; Udrea, D.D.; Boilot, P. Non-destructive egg freshness determination; an electronic nose based approach. Measurement Science and Technology 2003, 14, 190–198.
- Abdel-Nour., N.; Ngadi, M.; Prasher, M.; Karimi, Y. Prediction of Egg Freshness and Albumen Quality Using Visible/Near Infrared Spectroscopy. Food Bioprocess Technology 2011, 4, 731–736.
- Karoui, R.; Kemps, B.; Bamelis, F.; De Ketelaere, B.; Merten, K.R.; Schoonheydt, R.; Decuypere, E.; De Baerdemaeker, J. Development of a rapid method based on front face fluorescence spectroscopy for the monitoring of egg freshness: 1—evolution of thick and thin egg albumens. European Food Research and Technology 2006, 223, 303–312.
- Karoui, R.; Kemps, B.; Bamelis, F.; De Ketelaere, B.; Merten, K.R.; Schoonheydt, R.; Decuypere, E.; De Baerdemaeker, J. Development of a rapid method based on front-face fluorescence spectroscopy for the monitoring of egg freshness: 2—evolution of egg yolk. European Food Research and Technology 2006, 223, 180–188.
- Narushin, V.G. Non-destructive measurements of egg parameters and quality characteristics. World’s Poultry Science Journal 1997, 53 (2): 141–153.
- Abdel-Nour., N.; Ngadi, M.; Prasher, M.; Karimi, Y. Combined Maximum R2 and Partial Least Square Wavelengths Selection and Analysis of Spectroscopic Data. International Journal of Poultry Science 2009, 8 (2), 170–178.
- Haugh, R.R. A new method for determining the quality of an egg. US Egg Poultry 1937, 39, 27–49.
- Giunchi, A.; Berardinelli, A.; Ragni, L.; Fabbri, A.; Silaghi, F. Non-destructive freshness assessment of shell eggs using FT-NIR spectroscopy. Journal of Food Engineering 2008, 89, 142–148.
- Kemps, B.J.; Bamelis, F.; De Ketelaere, B.; Mertens, K. M.; Decuypere, E.; De Baerdemaeker, J. Visible transmission spectroscopy for the assessment of egg freshness. Journal of Science and Food in Agriculture 2006, 86, 1399–1406.
- Kestens, V.; Charoud-Got, J.; Bau, A.; Bernreuther, A.; Emteborg, H. Online measurement of water content in candidate reference materials by acoustoopticaltuneable filter near-infrared spectrometry (AOTF-NIR) using pork meat calibrants controlled by Karl Fischer titration. Food Chemistry 2008, 106, 1359–1365.
- Balabin, R.M.; Safieva, R.Z.; Lomakina, E.I. Comparison of linear and nonlinear calibration models based on near infrared (NIR) spectroscopy data for gasoline properties prediction. Chemometrics and Intelligent Laboratory Systems 2007, 88, 183–188.
- Wentzell, P.D.; Andrews, D.T.; Kowalski, B.R. Maximum likelihood multivariate calibration. Analytical Chemistry 1997, 69, 2299–2311.
- Wentzell, P.D.; Andrews, D.T.; Hamilton, D.C.; Faber, K.; Kowalski, B.R. Maximum likelihood principal component analysis. Journal of Chemometrics 1997, 11, 339–366.