A separating device for forming a standing area for livestock, in particular pigs, and for reducing emissions in pens, in particular in pig pens, comprises a base frame, a drainage element with a plurality of drainage channels which each comprise an outflow end, and shoulders, between which the plurality of drainage channels extends orthogonally to a drainage direction, a liquid-permeable endless belt with an upper run and a lower run, wherein the drainage element is arranged on the base frame such that a drainage direction of the plurality of drainage channels is directed in the direction of the outflow end.

The invention relates to a method for reducing emission of ammonia from a livestock housing. The method comprises applying a composition comprising a compound that restrains ammonia volatilization onto freshly excreted manure by an animal in the livestock housing. Because the compound is deposited onto freshly excreted manure, ammonia volatilization is tackled at the source, rather than at a later moment, e.g. in a manure pit, when contact of faeces and urine, and therefore the conversion of urea to ammonia under the influence of urease has already led to volatilization of ammonia.

A method for adjusting a cleaning schedule for cleaning sessions of a scraper arrangement (1) arranged for removing manure in a livestock area. One cleaning session comprises one cleaning along a predefined path in the livestock area. The method comprises monitoring (S2), while performing cleaning sessions in accordance with the cleaning schedule, a load quantity representing an amount of material moved by the scraper arrangement (1). The method also comprises adjusting (S5) the cleaning schedule, based on a variation in the monitored load quantity among the monitored cleaning sessions. The disclosure also relates to a control arrangement (10).

A method for operating an autonomous feed robot at a feed table in a livestock area, in which one or more stationary cameras are disposed to monitor the feed table, includes obtaining one or more images captured using the one or more stationary cameras and indicative of a distribution of feed on the feed table and controlling the operation of the autonomous feed robot based on the distribution of feed indicated by the one or more images. The disclosure also relates to control circuitry, an autonomous feed robot, and a computer program for performing the method.

A method, controller, computer program and arrangement for barn cleaning obtaining information from one or more cameras mounted to capture images of an area of operation of an automatic barn cleaning device and identifying at least one location in said area of operation being subjected to manure, based on the obtained information. The method further calculates a route for the automatic barn cleaning device based on the identified at least one location, and controls the automatic barn cleaning device based on the calculated route.

Manure collecting device, comprising a manure pick-up device for picking up manure from a floor of an animal accommodation, and a reservoir for collecting therein manure picked up by the manure pick-up device, wherein the manure pick-up device comprises a housing, comprising a receiving opening to be arranged close to the floor for the purpose of receiving manure in the housing therethrough, a delivery opening arranged close to the reservoir for the purpose of delivering the picked-up manure to the reservoir therethrough, and an at least partially cylindrical inner wall, wherein the inner wall extends at least between the receiving opening and the delivery opening, and a rotatably movable body with a central shaft and at least one arm extending radially relative to the shaft between the shaft and the inner wall, wherein the manure pick-up device is configured such that, while the body moves in rotating manner, the manure is picked up close to the receiving opening by means of the arm and is transported through the housing to the reservoir in co-action with the inner wall.

A stall vacuum trailer system to secure to a vehicle, the system includes a trailer supported by a frame and having a cargo compartment to receive particles therein; a vacuum machine supported by the frame, the vacuum machine having a motor; a fan device to mulch a substrate into the particles; and a hose extending from the fan and to extend to a rear of the cargo compartment; the fan device creates a vacuum effect to pull the substrate through the hose and further through the fan device and into the cargo compartment; the substrate is mulched into particles while entering the cargo compartment.

A poultry barn robot for robotically preforming various poultry barn operation tasks that includes a chassis, a collection platform pivotally mounted to the chassis, and an conveyor connected to the chassis, wherein the conveyor includes conveyor system for conveying at least one of dead birds and manure cakes from a bedded floor of a poultry barn to the collection platform. The robot additionally includes at least one equipment cabinet mounted to the chassis, and at least one controller that is structured and operable to control: movement of the robot through the poultry barn; movement of the conveyor system; and movement of the collection platform between a Collection position and a Disposal position.

A farm system comprising a plurality of smart tags which are each configured to be worn by an animal, a transmitter and receiver unit for wireless communication with the smart tag, one control unit which is communicatively connected to the transmitter and receiver unit and a farm unit which can be controlled by the control unit. Each smart tag comprises at least one sensor and is configured for wirelessly transmitting information obtained by one of the sensors to the transmitter and receiver unit, wherein the transmitter and receiver unit is configured for supplying the received information to the control unit and wherein the control unit is configured for processing the received information and, at least on the basis of this processed information, controlling at least a farm unit and/or generating a report signal for indicating to a user of the system that an activity is to be carried out.

An animal farm system includes a barn, animal related structures within the barn, such as a feeding alley and/or a milking system, and an autonomous vehicle arranged to perform an animal related action and move about in the barn. The vehicle includes a control unit to move the vehicle about, a position determining system for determining a position of the vehicle in the barn, a sensor system to determine a value of a parameter related to a position of the vehicle with respect to the barn or an object therein, such as the at least one structure therein, and a vehicle communication device. The control unit further is arranged to contain barn map information, and receive motion control and navigation information via the vehicle communication device.