Hostname: page-component-cd9895bd7-8ctnn Total loading time: 0 Render date: 2024-12-28T03:31:48.307Z Has data issue: false hasContentIssue false

Robot deboning for beef forequarters

Published online by Cambridge University Press:  09 March 2009

G. Purnell
Affiliation:
Robotics and Manufacturing Systems Research Group, Dept. of Mechanical Engineering, University of Bristol, Queens Building, University Walk, Bristol BS8 1TR (UK)
N. A. Maddock
Affiliation:
Robotics and Manufacturing Systems Research Group, Dept. of Mechanical Engineering, University of Bristol, Queens Building, University Walk, Bristol BS8 1TR (UK)
K. Khodabandehloo
Affiliation:
Robotics and Manufacturing Systems Research Group, Dept. of Mechanical Engineering, University of Bristol, Queens Building, University Walk, Bristol BS8 1TR (UK)

Summary

Initial development of a robotic meat cutting system based on force feedback control and continuous path planning is described. Forequarter beef cutting is attempted where each carcass processed will be compared to a database containing cut information for previously processed beef carcasses. Using the database information, cut start and end points can be defined along with initial path direction for each cut. A robot then drives a powered knife through the carcass utilising force feedback control to follow bone profiles, thus removing meat from the forequarter. An original cutting scheme suitable for robotic butchery of a beef forequarter is defined, along with a notation scheme for describing the cutting procedures.

Type
Article
Copyright
Copyright © Cambridge University Press 1990

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1.Khodabandehloo, K., Bailey, C. and James, S., “Intelligent Vision Guided Robots for the Food Industry” Proceedings of the International Symposium and Exposition on Robots, Sydney, Australia 61011, 1988. (IFS Publications, Kempston, U.K., 1988).Google Scholar
2.Horton, F.E. and Grimson, R.E.Robots in the Slaughterhouse: The results of a worldwide surveyMeat Processing 24(2) 3640–42 (04, 1985).Google Scholar
3.Marchant, J.A.The Use of Robotics in Agricultural and Food Industries (National Institute of Argicultural Engineering, Silsoe, Bedford, UK, 19th 11, 1985).Google Scholar
4.Clarke, P.T., “Automatic Breakup of Pork CarcassesProceedings of the Agri-Mation 1 Conference and Exposition,Chicago, USA. 252802 1985 (Publ. ASAE, St Joseph, Michigan, USA 1985).Google Scholar
5.Clarke, P.T., Key, S.J. and Tang, P., “Development of Robot Technology for Meat Deboning” Proceedings of the International Symposium and Exposition on Robots, Sydney, Australia. 61011 1988. (IFS Publications, Kempston, U.K. 1988).Google Scholar
6. Anon., “Automated Beef Boning: First Step Toward a Totally Robotic System?Food Engineering 56(2) 170 (02, 1984).Google Scholar
7.Brown, A.J., Coates, H.E. and Speight, B.S.Muscular and Skeletal Anatomy of the Beef Carcass (AFRC Meat Research Institute, Langford, U.K., 1978).Google Scholar
8.Urshel, J.R., “The Science and Art of Cutting Food Products” American Institute of Chemical Engineers National Meeting Proceedings (1983).Google Scholar
9.Mauser, K.E., “Robotics in the Meat IndustryProceedings 37th Annual Reciprocal Meat Conference of the American Meat Science Association. 37, 172006, 1984. Texas Tech University,Lubbock, Texas. (National Livestock and Meat Board, 444 North Michigan Avenue, Chicago, Illinois 60611, 1984).Google Scholar
10.Russell, R.A. and Wong, P., “Automation of Lace Cutting Using Computer Vision” Proceedings of the International Symposium and Exposition on Robots, Sydney, Australia. 61011 1988 (IFS Publications, Kempston, U.K., 1988).Google Scholar
11.Ameziane, M., Bonnet, P. and Postaire, J.G., “Vision Applied to a Cutting Process in the Textile IndustryProceedings of the 7th International Conference on Automated Inspection and Product Control. 1985 (IFS Publications,Kempston, U.K., 1985).Google Scholar