I. Shmulevich scite author profile

This study investigates the potential use of attenuated total reflectance spectroscopy in the mid-infrared range for determining protein concentration in raw cow milk. The determination of protein concentration is based on the characteristic absorbance of milk proteins, which includes 2 absorbance bands in the 1500 to 1700 cm(-1) range, known as the amide I and amide II bands, and absorbance in the 1060 to 1100 cm(-1) range, which is associated with phosphate groups covalently bound to casein proteins. To minimize the influence of the strong water band (centered around 1640 cm(-1)) that overlaps with the amide I and amide II bands, an optimized automatic procedure for accurate water subtraction was applied. Following water subtraction, the spectra were analyzed by 3 methods, namely simple band integration, partial least squares (PLS) and neural networks. For the neural network models, the spectra were first decomposed by principal component analysis (PCA), and the neural network inputs were the spectra principal components scores. In addition, the concentrations of 2 constituents expected to interact with the protein (i.e., fat and lactose) were also used as inputs. These approaches were tested with 235 spectra of standardized raw milk samples, corresponding to 26 protein concentrations in the 2.47 to 3.90% (weight per volume) range. The simple integration method led to very poor results, whereas PLS resulted in prediction errors of about 0.22% protein. The neural network approach led to prediction errors of 0.20% protein when based on PCA scores only, and 0.08% protein when lactose and fat concentrations were also included in the model. These results indicate the potential usefulness of Fourier transform infrared/attenuated total reflectance spectroscopy for rapid, possibly online, determination of protein concentration in raw milk.

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Determination of discrete element model parameters required for soil tillage

Asaf

Rubinstein

Shmulevich

2007

Soil and Tillage Research

190

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Soil identification and chemometrics for direct determination of nitrate in soils using FTIR-ATR mid-infrared spectroscopy

et al. 2005

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State of the art modeling of soil–tillage interaction using discrete element method

Shmulevich

2010

Soil and Tillage Research

109

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Interaction between soil and a wide cutting blade using the discrete element method

Shmulevich

Asaf

Rubinstein

2007

Soil and Tillage Research

144

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Nondestructive dynamic testing of apples for firmness evaluation

Shmulevich

Galili

Howarth

2003

Postharvest Biology and Technology

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Nitrate Determination in Soil Pastes using Attenuated Total Reflectance Mid-infrared Spectroscopy: Improved Accuracy via Soil Identification

Linker

Weiner

Shmulevich

et al. 2006

Biosystems Engineering

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Acoustic Testing of Avocado for Fruit Ripeness Evaluation

Galili¹,

Shmulevich²,

Benichou³

1998

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I. Shmulevich

Determination of Protein Concentration in Raw Milk by Mid-Infrared Fourier Transform Infrared/Attenuated Total Reflectance Spectroscopy

Determination of discrete element model parameters required for soil tillage

Soil identification and chemometrics for direct determination of nitrate in soils using FTIR-ATR mid-infrared spectroscopy

State of the art modeling of soil–tillage interaction using discrete element method

Interaction between soil and a wide cutting blade using the discrete element method

Nondestructive dynamic testing of apples for firmness evaluation

Nitrate Determination in Soil Pastes using Attenuated Total Reflectance Mid-infrared Spectroscopy: Improved Accuracy via Soil Identification

Acoustic Testing of Avocado for Fruit Ripeness Evaluation

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