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Abstract
The data presented in this article are related to the research article entitled “Application of Raman spectroscopy and chemometric techniques to assess sensory characteristics of young dairy bull beef” [1]. Partial least squares regression (PLSR) models were developed on Raman spectral data pre-treated using Savitzky Golay (S.G.) derivation (with 2nd or 5th order polynomial baseline correction) and results of sensory analysis on bull beef samples (n = 72). Models developed using selected Raman shift ranges (i.e. 250–3380 cm−1, 900–1800 cm−1 and 1300–2800 cm−1) were explored. The best model performance for each sensory attributes prediction was obtained using models developed on Raman spectral data of 1300–2800 cm−1.
Highlights
Data ArticleMing Zhao a,n, Yingqun Nian b,c, Paul Allen b, Gerard Downey a, Joseph P
Accepted 17 April 2018 models were developed on Raman spectral data pre-treated using
Results of this work are in agreement with a previous study by [2] that the Raman frequency range of 1300–2800 cm−1 is the most suitable range for prediction of bull beef eating quality parameters
Summary
Ming Zhao a,n, Yingqun Nian b,c, Paul Allen b, Gerard Downey a, Joseph P. O’Donnell a a School of Biosystems and Food Engineering, University College Dublin, Belfield, Dublin 4, Ireland b. Received 10 February 2018 entitled “Application of Raman spectroscopy and chemometric. February 2018 beef” (Zhao et al, 2018) [1]. Accepted 17 April 2018 models were developed on Raman spectral data pre-treated using. Selected Raman shift ranges samples (n 1⁄4 72). 2352-3409/& 2018 Published by Elsevier Inc. 2352-3409/& 2018 Published by Elsevier Inc
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