A method and system are arranged to perform a feed-related action at a feed table, upon which fodder for feeding of a group of animals is present. The system includes a sensor, configured to measure constituents, physical property or chemical property of the fodder on the feed table at a first point in time; a database, configured to store the measured constituents, physical property or chemical property of the fodder, associated with the first point in time; and a controller, configured to perform the feed-related action, based on the measured constituents, physical property or chemical property of the fodder.

Disclosed is a multifunctional intelligent breeding and rearing system. Functional modules such as a radio-frequency ear tag and identification device, a central controller (1), an isolation and dislodging device (2), a multifunctional feeding trough (3), an automatic feeding device (4), a quantitative water supply device, a feeding trough automatic flushing and a remaining feed detection are utilized to form a basic automatic feeding unit. Through the feeding unit, an identity and eating information of a pig is identified; for a pig that does not eat during a feeding time period, feed and water are injected into a feeding trough simultaneously according to a feed amount and a mixing ratio preset by the system, for precise feeding; a pig that has eaten up is dislodged in real time; and the feeding trough is automatically flushed at an end of feeding. The system realizes automatic and intelligent feeding of a livestock.

A transmission system for a feed mixer including a continuously variable transmission (CVT) is provided. The CVT includes a mechanical loop and a hydrostatic loop. The CVT is operated so that the mechanical portion of the CVT is prevented from overtaking the hydrostatic portion of the CVT at start up of the CVT.

Systems, apparatuses, and methods are described for a food delivery and feeding. An apparatus may comprise: a housing, the housing comprising a housing outlet; and a storage compartment contained within the housing the storage compartment configured to store a plurality of food items for feeding one or more pets. The storage compartment may comprise a storage compartment outlet and two rotatable wheels. The apparatus may also comprise an ejection device contained within the housing. The ejection device may be configured to eject one or more of the plurality of food items. Rotation of the two rotatable wheels causes the one or more of the plurality of food items to move from the storage compartment through the storage compartment outlet to the ejection device.

An orientation indicator device that includes a band having an interior side, an exterior side, and a length to wrap around a neck of an animal. The orientation indicator device includes at least one fiducial marker attached to the band that is visible from the exterior side of the band to denote an orientation of the animal. The orientation indicator device includes a tag coupled to the band to hang by gravity from under the neck. The band is in the form of a collar with fasteners to fasten the collar around the neck. A system is also disclosed that includes a walk-in analysis zone. The orientation indicator device and a computer vision system, in the walk-in analysis zone, identify an orientation of an animal in the zone by capturing the orientation indicator device and dimensions of a body of the animal.

A system that includes a persuasion delivery device to deliver a persuasion to an animal to persuade the animal into a walk-in analysis zone for conducting an examination session. The system includes a set of sensors to sense in real-time at least one biological parameter to create real-time biological data. Each sensor has a sample collector in the walk-in analysis zone to capture a respective biological parameter. The system includes at least one processor to analyze the real-time biological data and at least one of: recommending animal feed nutrients based on the analyzed real-time biological data; identifying the at least one biological parameter on a user interface; and causing a feed making machine to make animal feed based on the recommended animal feed nutrients.

Systems, apparatuses, and methods are described for a food delivery and feeding. An apparatus may comprise: a base; an ejection device configured to eject, via a food outlet on the apparatus, one or more of a plurality of food items; and a rotation device operably mounted to the ejection device. The rotation device may be configured to rotate the ejection device relative the base to cause a change to a direction of ejection of the one or more of the plurality of food items relative to the base. The rotation device may comprise a motor and a ring gear. The motor may be connected to the ring gear. The ring gear may be connected to a bracket assembly. The rotation of the bracket assembly may cause the rotation of the ejection device.

A process for reliable detection of the top edge of the heading face of a pile of product(s) for animal feeding, from an extraction vehicle. It consists of positioning the vehicle in front of the heading face, then continuously controlling the upward motion of the extraction arm so as to vertically scan the plane of the heading face with the axes of measurement of at least two measurement sensors, then, as soon as at least any information is acquired indicating the absence of target, ordering the motion of the arm to stop, possibly ordering the detection of presence of an obstacle on the pile of product(s), then ordering the actuation of the extraction tool. Its object is also such a vehicle for implementing the process.

An automatic and autonomous feeding device comprising a feed kitchen having different feed varieties and a feed fetching device, and a control system for executing a feed composing cycle including receipt or generation of a feed order and controlling of the feed fetching device to fetch feed from the feed kitchen according to the feed order in order to compose a feed mixture, and comprising a feed determining device configured to deteiiiiine quantity information of the feed varieties, wherein the control device further contains fall-back information, for at least one feed variety, which fall-back information specifies what action the feeding device, during and/or after execution of a feed composing cycle, needs to perform if the feed determining device determines that that quantity of this feed variety which is desired in the feed order is greater than the available quantity.

A feed-mixing device for receiving, mixing and dispensing animal feed includes a frame with a mixing bin for receiving and mixing the animal feed therein and dispensing it therefrom, at least one mixing device rotatably drivable in the mixing bin using a drive, in particular a vertical mixing auger, for mixing the received animal feed, and a weighing device for determining the weight of the animal feed received in the mixing bin, comprising N weighing elements, with N≥2, each of which emits a weighing signal, and a control system for controlling the feed-mixing device and for processing the weighing signals from the weighing elements to produce the determined weight. The control system is configured to perform an, in particular fully automatic, calibration action of the weighing elements. The calibration action includes driving the at least one mixing device, reading out the respective weighing signal of each of the N weighing elements in each of M different positions of the mixing device, with M≥N, calibrating the weighing elements on the basis of the read-out weighing signals, wherein the calibrating at least includes determining a respective correction factor for the weighing signal of each weighing element by analysing the read-out weighing signals of all weighing elements. Thus, all weighing elements may be calibrated without having to detach the weighing elements, which provides very reliable weight measurements in a very simple manner.