Arrangement and method for classifying teats with respect to size measures

The invention claimed is: 1. An arrangement for an automatic milking system, the arrangement comprising: a three-dimensional camera configured to record image data representing an outer surface of a teat of a dairy animal in three dimensions; and a processing unit configured to: receive the recorded image data, calculate at least one size measure of the teat based on the image data, and provide a geometric analysis of the teat including determining a size-related classification of the teat based on the at least one size measure out of a plurality of size-related classifications, each of the size-related classifications defining one or more of a range of teat width and a range of teat length; and a user interface configured to present output data reflecting the size-related classification of the teat, wherein the processing unit is further configured to: calculate the at least one size measure for at least one teat of each of a number of animals in a group of animals, and determine a common size-related classification for said at least one teat, the common size-related classification being based on an analysis of the at least one size measure for said at least one teat. 2. The arrangement according to claim 1 , wherein the processing unit is configured to calculate the at least one size measure of the teat based on the image data recorded in the form of at least two images. 3. The arrangement according to claim 2 , wherein the processing unit is further configured to: combine image data from at least two of the at least two images to produce composite image data, and determine the size-related classification of the teat based on the composite image data. 4. The arrangement according to claim 2 , wherein the at least two images form part of a sequence of images recorded by the three-dimensional camera. 5. The arrangement according to claim 1 , wherein the three-dimensional camera is further configured to forward the recorded image data to a control unit in the automatic milking system, the control unit being configured to control a movable robot arm. 6. An arrangement for an automatic milking system, the arrangement comprising: a three-dimensional camera configured to record image data representing an outer surface of a teat of a dairy animal in three dimensions; and a processing unit configured to: receive the recorded image data, calculate at least one size measure of the teat based on the image data, and provide a geometric analysis of the teat including determining a size-related classification of the teat based on the at least one size measure out of a plurality of size-related classifications, each of the size-related classifications defining one or more of a range of teat width and a range of teat length; and a user interface configured to present output data reflecting the size-related classification of the teat, wherein the processing unit is further configured to: determine a recommended teatcup liner for the dairy animal based on the size-related classification of the teat, calculate the at least one size measure for at least one teat of each of a number of animals in a group of animals, and determine a common size-related classification for said at least one teat, the common size-related classification being based on an analysis of the at least one size measure for said at least one teat. 7. The arrangement according to claim 6 , wherein the processing unit is further configured to determine a collective recommended teatcup liner for the group of animals based on the common size-related classification. 8. The arrangement according to claim 6 , wherein the arrangement is associated with at least two milking installations, each of the at least one milking installations being configured to extract milk from identified individuals within said group of animals, and the processing unit is further configured to: determine a first common size-related classification for a first subgroup of animals within said group of animals, the first common size-related classification being associated with a first teatcup liner used in a first milking installation of said at least two milking installations, and determine a second common size-related classification for a second subgroup of animals within said group of animals, the second common size-related classification being associated with a second teatcup liner used in a second milking installation of said at least two milking installations. 9. A method implemented in an arrangement for an automatic milking system, the method comprising: recording image data representing an outer surface of a teat of a dairy animal in three dimensions; providing a geometric analysis of the teat based on the image data by calculating at least one size measure of the teat based on the image data, and determining a size-related classification of the teat based on the at least one size measure out of a plurality of size-related classifications, each of the size-related classifications defining one or more of a range of teat width and a range of teat length; calculating the at least one size for at least one teat of each of a number of animals in a group of animals; determining a common size-related classification for said at least one teat, the common size-related classification being based on an analysis of the at least one size measure for said at least one teat; presenting output data reflecting the size-related classification of the teat via a user interface; determining a recommended teatcup liner for the dairy animal based on the size-related classification of the teat; and determining a collective recommended teatcup liner for the group of animals based on the common size-related classification. 10. The method according to claim 9 , wherein the at least one size measure of the teat is calculated based on image data recorded in the form of at least two images. 11. The method according to claim 10 , further comprising: combining image data from at least two of the at least two images to produce composite image data, and determining the size-related classification of the teat based on the composite image data. 12. The method according to claim 10 , wherein the at least two images form part of a sequence of images recorded by a three-dimensional camera. 13. The method according to claim 9 , further comprising: determining a first common size-related classification for a first subgroup of animals within said group of animals, the first common size-related classification being associated with a first teatcup liner used in a first milking installation of said at least two milking installations, and determining a second common size-related classification for a second subgroup of animals within said group of animals, the second common size-related classification being associated with a second teatcup liner used in a second milking installation of said at least two milking installations. 14. An arrangement for an automatic milking system, the arrangement comprising: a three-dimensional camera configured to record image data representing an outer surface of at least one teat of each of a number of dairy animals in a group of animals in three dimensions; and a processing unit configured to: receive the recorded image data, calculate at least one size measure of the at least one teat of each of the number of dairy animals in the group of animals, based on the image data, provide a geometric analysis of the at least one teat including determining a common size-related classification of the at least one teat based on the at least one size measure for the at least one te