A robotic attacher retrieves cups from the left side of an equipment area located behind a dairy livestock and attaches the cups to the teats of the dairy livestock in sequence. The sequence comprises attaching a first cup to the left front teat, a second cup to the right front teat, a third cup to the left rear teat, and a fourth cup to the right rear teat.

A system for operating a robotic arm, comprises a controller and a robotic arm. The controller receives an indication that a stall of a rotary milking platform in which a dairy livestock is located has moved into an area adjacent a robotic arm that is detached from the rotary milking platform. The controller also determines whether a milking cluster is attached to the dairy livestock. The robotic arm is communicatively coupled to the controller and extends between the legs of the dairy livestock if the controller determines that the milking cluster is not attached to the dairy livestock. The robotic arm does not extend between the legs of the dairy livestock if the controller determines that the milking cluster is attached to the dairy livestock.

A system includes a milking stall to accommodate a dairy livestock and a robotic attacher. The robotic attacher extends under the dairy livestock and comprises a nozzle. The robotic attacher is operable to rotate such that, during a first operation, the nozzle is positioned generally on the bottom of the robotic attacher, and during a second operation, the nozzle is positioned generally on the top of the robotic attacher.

A robotic attacher comprises a gripping portion, a vision system positioned on a first surface of the gripping portion, and at least one nozzle positioned on a second surface of the gripping portion. The gripping portion is rotates about a longitudinal axis such that during a first time, the vision system is positioned generally on the top of the gripping portion, and during a second time, the nozzle is positioned generally on the top of the gripping portion.

A system for operating a robotic arm comprises a carriage and a robotic arm. The carriage is mounted on a track adjacent to a rotary milking platform having a substantially circular perimeter and a stall for a dairy livestock. The carriage moves along a substantially straight portion of the track tangent to and outside the perimeter of the rotary milking platform at a rate based at least in part upon a speed of rotation of the rotary milking platform. The carriage moves in a direction corresponding to the direction of rotation of the rotary milking platform and such movement of the carriage is independent of any physical coupling between the carriage and the rotary milking platform. The robotic arm extends between the legs of the dairy livestock.

A system includes a camera, a controller and a robotic arm. The camera generates an image of an udder of a dairy livestock. The controller determines a position of the udder of the dairy livestock based at least in part upon the image. The controller further determines a spray position based at least in part upon the determined position of the udder of the dairy livestock. Determining the spray position includes processing the accessed image to determine a tangent at the rear of the udder and a tangent at the bottom of the udder. The spray position is a position relative to the intersection of the two tangents. The robotic arm is communicatively coupled to the controller and positions a spray tool at the spray position.

A method comprises extending a robotic attacher under a dairy livestock positioned in a milking stall, wherein the robotic attacher comprises a nozzle that is positioned generally on the bottom of the robotic attacher during a first operation. The method further comprises rotating the robotic attacher during a second operation such that the nozzle is positioned generally on the top of the robotic attacher.

A system and methods for trapping animals including an enclosure adapted to be suspended above a trap area. The enclosure may be movable from the suspended position to a lowered position to enclose a trap area. The system further includes a user-directed control system to remotely control the position of the enclosure in order to trap animals within the enclosure.

A method for operating a robotic arm, comprises determining a speed of rotation of a rotary milking platform, the rotary milking platform having a stall for a dairy livestock. The method continues by moving a carriage along a track positioned adjacent to the rotary milking platform at a rate that is based at least in part upon the determined speed of rotation of the rotary milking platform, wherein the carriage moves independently of the rotary milking platform and in a direction corresponding to a direction of rotation of the rotary milking platform. The method continues by extending a robotic arm that is coupled to the carriage between the legs of the dairy livestock, wherein the robotic arm remains extended between the legs of the dairy livestock for a period of time as the stall rotates adjacent to the robotic arm. The method concludes by retracting the robotic arm from between the legs of the dairy livestock as the stall rotates adjacent to the robotic arm.

In certain embodiments, a system for applying disinfectant to the teats of a dairy livestock includes a carriage mounted on a track, the carriage operable to translate laterally along the track. The system further includes a robotic arm including a first member pivotally attached to the carriage such that the first member may rotate about a point of attachment to the carriage, a second member pivotally attached to the first member such that the second member may rotate about a point of attachment to the first member, and a spray tool member pivotally attached to the second member such that the spray tool member may rotate about a point of attachment to the second member. The robotic arm further includes a spray tool attached to the spray tool member. The system further includes a controller operable to cause at least a portion of the robotic arm to extend between the hind legs of a dairy livestock such that the spray tool is located at a spray position from which the spray tool may discharge an amount of disinfectant to the teats of the dairy livestock.