A knowledge-based system for diagnosis of mastitis problems at the herd level. 2. Machine milking.

A knowledge-based system for the diagnosis of mastitis problems at the herd level must search for possible causes, including malfunctioning milking machines or incorrect milking technique. A knowledge-based system on general mechanisms of mastitis infection, using hierarchical conditional causal models, was extended. Model building entailed extensive cooperation between the knowledge engineer and a domain expert. The extended knowledge-based system contains 12 submodels underlying the overview models. Nine submodels were concerned with mastitis problems arising from machine milking. These models are briefly described. The knowledge-based system has been validated by other experts after which the models were adjusted slightly. The final knowledge-based system was validated to data collected at 17 commercial dairy farms with high SCC in the bulk milk. Reports containing the farm data were accompanied by recommendations made by a dairy farm advisor. This validation showed good agreement between the knowledge-based system and the dairy farm advisors. The described knowledge-based system is a good tool for dairy farm advisors to solve herd mastitis problems caused by a malfunctioning milking machine or incorrect milking technique.

[1]  R. J. Grindal The role of the milking machine in mastitis. , 1988, The British veterinary journal.

[2]  S. Spencer Recent Research and Developments in Machine Milking—A Review , 1989 .

[3]  J. Hamann,et al.  Teat tissue reactions to milking: effects of vacuum level. , 1993, Journal of dairy science.

[4]  Thomas B Farver,et al.  The association of milking management practices with bulk tank somatic cell counts , 1993 .

[5]  Ruth.,et al.  Toxic groundnut meal: biological and chemical assays of a large batch of a "reference" meal used for experimental work. , 1966 .

[6]  Henk Hogeveen,et al.  Conditional causal modeling , 1995, Appl. Artif. Intell..

[7]  A. Reitan,et al.  Influence of static and dynamic teat characteristics and milking time on udder health in Norwegian Red Cattle , 1990, Journal of Dairy Research.

[8]  C. C. Thiel,et al.  The influence of some physical characteristics of the milking machine on the rate of new mastitis infections , 1973, Journal of Dairy Research.

[9]  W. Meaney,et al.  Liner slip, impacts and mastitis , 1975 .

[10]  S. Spencer,et al.  The effect of milking machine liner slip on new intramammary infections. , 1992, Journal of dairy science.

[11]  F. H. Dodd,et al.  Mastitis and machine milking. , 1992 .

[12]  J. Fleiss Statistical methods for rates and proportions , 1974 .

[13]  O. Østerås,et al.  Epidemiological analyses of the associations between bovine udder health and housing , 1988 .

[14]  S. Spencer,et al.  Relationship among udder and teat morphology and milking characteristics. , 1991, Journal of dairy science.

[15]  J. Galland,et al.  Toward developing an instrument for measuring milking management practices. , 1988, Acta veterinaria Scandinavica. Supplementum.

[16]  Frederick Hayes-Roth,et al.  Building expert systems , 1983, Advanced book program.

[17]  W. Grove Statistical Methods for Rates and Proportions, 2nd ed , 1981 .

[18]  J. Galland,et al.  Survey of milking management practices on large dairies and their relationship to udder health and production variables. , 1988, Journal of dairy science.

[19]  H Hogeveen,et al.  A knowledge-based system for diagnosis of mastitis problems at the herd level. 1. Concepts. , 1995, Journal of dairy science.

[20]  R. Pearson,et al.  Likelihood of Droplet Impacts on Teat Ends during Induced Milking Vacuum Fluctuations , 1979 .

[21]  G. A. Mein,et al.  Machine milking and lactation. , 1992 .

[22]  J. F. Nyhan,et al.  Inadequate milking machine vacuum reserve and mastitis , 1967, Veterinary Record.