A Computerized Mastitis Decision Aid Using Farm-Based Records: An Artificial Neural Network Approach

A computer module was developed and tested that used field survey and Dairy Herd Improvement Association (DHIA) data to broadly classify bacterial causes of mastitis in dairy herds. Further development of the computer model could aid interpretation of DHIA data by dairy record processing centers and...

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Veröffentlicht in:	Journal of dairy science 2000-04, Vol.83 (4), p.711-720
Hauptverfasser:	Heald, C.W., Kim, T., Sischo, W.M., Cooper, J.B., Wolfgang, D.R.
Format:	Artikel
Sprache:	eng
Schlagworte:	Animal productions Animals artificial neural network Bacterial Infections - microbiology Bacterial Infections - veterinary Biological and medical sciences Cattle Cell Count Computer Simulation Dairying - methods decision aid Discriminant Analysis Female Food industries Fundamental and applied biological sciences. Psychology linear discriminant analysis mastitis Mastitis, Bovine - diagnosis Mastitis, Bovine - microbiology Milk - cytology Milk and cheese industries. Ice creams Models, Statistical Neural Networks (Computer) Terrestrial animal productions Vertebrates
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container_end_page	720
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container_title	Journal of dairy science
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description	A computer module was developed and tested that used field survey and Dairy Herd Improvement Association (DHIA) data to broadly classify bacterial causes of mastitis in dairy herds. Further development of the computer model could aid interpretation of DHIA data by dairy record processing centers and herd consultants. This diagnostic module was developed with an artificial neural network, a technology that processes complex data in a manner similar to human brain function. Information describing herd management practices, quarter milk samples, and monthly DHIA data was collected from Pennsylvania dairy herds with moderate to high somatic cell counts. This information was used to develop or train an artificial neural network model that discriminated among four categories of bacterial organisms (contagious, environmental, no significant growth, and other) associated with clinical and subclinical mastitis. After training the model, new DHIA and management data were presented to the model to assess its ability to classify bacteriological etiology. When the artificial neural network was used, the probabilities of diagnosing the bacteriologic status from three randomly selected cow groups and from new untested herds ranged from 57 to 71%. Performance of the artificial neural network model was best in herds with higher frequency of minor and contagious pathogens. Prediction results for the same test data with linear discriminant analysis were less successful, ranging from 42 to 57%.
doi_str_mv	10.3168/jds.S0022-0302(00)74933-2
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When the artificial neural network was used, the probabilities of diagnosing the bacteriologic status from three randomly selected cow groups and from new untested herds ranged from 57 to 71%. Performance of the artificial neural network model was best in herds with higher frequency of minor and contagious pathogens. 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Further development of the computer model could aid interpretation of DHIA data by dairy record processing centers and herd consultants. This diagnostic module was developed with an artificial neural network, a technology that processes complex data in a manner similar to human brain function. Information describing herd management practices, quarter milk samples, and monthly DHIA data was collected from Pennsylvania dairy herds with moderate to high somatic cell counts. This information was used to develop or train an artificial neural network model that discriminated among four categories of bacterial organisms (contagious, environmental, no significant growth, and other) associated with clinical and subclinical mastitis. After training the model, new DHIA and management data were presented to the model to assess its ability to classify bacteriological etiology. 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When the artificial neural network was used, the probabilities of diagnosing the bacteriologic status from three randomly selected cow groups and from new untested herds ranged from 57 to 71%. Performance of the artificial neural network model was best in herds with higher frequency of minor and contagious pathogens. Prediction results for the same test data with linear discriminant analysis were less successful, ranging from 42 to 57%.</abstract><cop>Savoy, IL</cop><pub>Elsevier Inc</pub><pmid>10791787</pmid><doi>10.3168/jds.S0022-0302(00)74933-2</doi><tpages>10</tpages><oa>free_for_read</oa></addata></record>
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subjects	Animal productions Animals artificial neural network Bacterial Infections - microbiology Bacterial Infections - veterinary Biological and medical sciences Cattle Cell Count Computer Simulation Dairying - methods decision aid Discriminant Analysis Female Food industries Fundamental and applied biological sciences. Psychology linear discriminant analysis mastitis Mastitis, Bovine - diagnosis Mastitis, Bovine - microbiology Milk - cytology Milk and cheese industries. Ice creams Models, Statistical Neural Networks (Computer) Terrestrial animal productions Vertebrates
title	A Computerized Mastitis Decision Aid Using Farm-Based Records: An Artificial Neural Network Approach
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