Evaluation of Video Image Analysis (VIA) technology to predict meat yield of sheep carcasses on-line under UK abattoir conditions.

The Meat and Livestock Commission's (MLC) EUROP classification based scheme and Video Image Analysis (VIA) system were compared in their ability to predict weights of primal carcass joints. A total of 443 commercial lamb carcasses under 12 months of age and mixed gender were selected by their cold carcass weight (CCW), conformation and fat scores. Lamb carcasses were classified for conformation and fatness, scanned by the VIA system and dissected into primal joints of leg, chump, loin, breast and shoulder. After adjustment for CCW, the estimation of primal joints using MLC EUROP scores showed high coefficients of determination (R(2)) in the range of 0.82-0.99. The use of VIA always resulted in equal or higher R(2). The precision measured as root mean square error (RMSE) was 27% (leg), 13% (chump), 1% (loin), 11% (breast), 5% (shoulders) and 13% (total primals) higher using VIA than MLC carcass information. Adjustment for slaughter day and gender effects indicated that estimations of primal joints using MLC EUROP scores were more sensitive to these factors than using VIA. This was consistent with an increase in stability of the prediction model of 28%, 11%, 2%, 12%, 6% and 14% for leg, chump, loin, breast and shoulder and total primals, respectively, using VIA compared to MLC EUROP scores. Consequently, VIA was capable of improving the prediction of primal meat yields compared to the current MLC EUROP carcass classification scheme used in the UK abattoirs.

[1]  M. J. Young,et al.  Predicting carcass composition of terminal sire sheep using X-ray computed tomography , 2006 .

[2]  J. McEwan,et al.  Economic benefits in selection for weight and composition of lamb cuts predicted by computer tomography , 2004 .

[3]  W. M. Robertson,et al.  Video image analysis for on-line classification of lamb carcasses , 1998 .

[4]  Prediction of carcass tissue weight in vivo using live weight, ultrasound or X-ray CT measurements , 1996 .

[5]  J. D. Tatum,et al.  An evaluation of the lamb vision system as a predictor of lamb carcass red meat yield percentage. , 2003, Journal of animal science.

[6]  Knut Kvaal,et al.  Virtual dissection of lamb carcasses using computer tomography (CT) and its correlation to manual dissection , 2008 .

[7]  P. Allen,et al.  Mechanical Grading of beef carcasses , 2001 .

[8]  J D Tatum,et al.  Real-time augmentation of USDA yield grade application to beef carcasses using video image analysis. , 2003, Journal of animal science.

[9]  C. Warkup,et al.  Market requirements for lamb , 2003 .

[10]  Estimation of lamb carcass composition using an electronic probe, a visual scoring system and carcass measurements , 1992 .

[11]  D. Hopkins The relationship between muscularity, muscle:bone ratio and cut dimensions in male and female lamb carcasses and the measurement of muscularity using image analysis. , 1996, Meat science.

[12]  D. Hopkins,et al.  Diverse lamb genotypes 4. Predicting the yield of saleable meat and high value trimmed cuts from carcass measurements. , 2001, Meat science.

[13]  J C Forrest,et al.  Development of technology for the early post mortem prediction of water holding capacity and drip loss in fresh pork. , 2000, Meat science.

[14]  Graham W. Horgan,et al.  Automatic assessment of sheep carcasses by image analysis , 1995 .

[15]  A. Kempster The indirect evaluation of sheep carcass composition in breeding schemes, population studies and experiments , 1981 .

[16]  K. Kvaal,et al.  Validation of the EUROP system for lamb classification in Norway; repeatability and accuracy of visual assessment and prediction of lamb carcass composition. , 2006, Meat science.

[17]  M. J. Young,et al.  Prediction of total body tissue weights in Scottish Blackface ewes using computed tomography scanning , 2003 .

[18]  K E Belk,et al.  Evaluation of the E+V video image analysis system as a predictor of pork carcass meat yield. , 2003, Journal of Animal Science.

[19]  K. Stanford,et al.  Comparison of Objective External Carcass Measurements and Subjective Conformation Scores for Prediction of Lamb Carcass Quality , 1997 .

[20]  J. Thompson,et al.  Video image analysis in the Australian meat industry - precision and accuracy of predicting lean meat yield in lamb carcasses. , 2004, Meat science.