Relative to a gaming system, a jackpot or game win processing device and server are configured to receive acknowledgement from a player regarding a gaming win award, such as input to the game win processing device of a signature by the player to gaming win forms. In response, the server is configured to generate at least one gaming win reporting form, such as a W2G, to store that form and provide access to the form, such as by emailing the form to the player or allowing the player to access the form via a portal.

An agricultural production machine, such as a combine, forage harvester or tractor, is disclosed. The agricultural production machine includes a drive assembly with an internal combustion engine, an electric energy supplying system having an electric auxiliary machine, and a driver assistance system with a control system that is configured to control the internal combustion engine, the electric auxiliary machine, and at least one power consumer that can be driven by the drive assembly. The internal combustion engine operates at the lowest possible rotational speed, with the electric energy supplying system configured to support the internal combustion engine by connecting the electric auxiliary machine at this lowest possible rotational speed when connecting a load.

An agricultural work machine, such as a harvester, is disclosed. The agricultural work machine includes an internal combustion engine, at least one working assembly, and a regulating device. The internal combustion engine provides power to the working assembly, with the internal combustion engine being operated in different power settings, with a different performance characteristic in each of the different power settings. The regulating device causes automatic shifting of the internal combustion engine from one power setting to another in response to determining that the power requirements assigned to the working assembly change. The power settings may be assigned to different, pre-selectable power setting ranges, which may differ in terms of the highest respective power setting assigned thereto. Further, the regulating device may only cause shifting of the internal combustion engine between power settings in the respective pre-selected power setting range.

A combine harvester with an axial flow crop processor with a rotor mounted for rotation inside a rotor housing arranged longitudinally with respect to the harvester. A feed beater is mounted for rotation on a substantially transverse axis and serves to tangentially impel crop material into the crop processor. A drive system drives the rotor and feed beater, wherein the drive system includes a rotor drive device for transmitting torque from a drive stage to the rotor, and a drive connection between the rotor drive device and the beater.

A cleaning system for an agricultural harvester includes: at least one sieve; a cleaning blower directed at the at least one sieve and configured to supply a cleaning air flow directed at the at least one sieve; and a conveyor assembly configured to supply crop material to the at least one sieve. The conveyor assembly includes: a conveyor frame; a shaker coupled to the conveyor frame and configured to shake the conveyor frame; and an endless conveyor carried by the conveyor frame and including a conveyor loop with a substantially solid surface and a conveyor driver coupled to the conveyor loop, the conveyor driver being configured to selectively rotate the conveyor loop.

In one aspect, a system for monitoring crop fill-levels of transport receptacles includes a crop transport receptacle defining a storage volume configured to receive harvested crops, and a plurality of switch-based fill-level sensors positioned within the storage volume of the crop transport receptacle. The fill-level sensors are arranged in a sensor array such that each fill-level sensor is spaced apart both vertically and horizontally relative to one or more other fill-level sensors of the plurality of fill-level sensors. In addition, the system includes a computing system communicatively coupled to the plurality of fill-level sensors, with the computing system being configured to monitor a fill-level of the crop transport receptacle based on data derived from the plurality of fill-level sensors.

A method begins by a drive unit affiliated with farm equipment receiving data from the farm equipment to produce agricultural data. The method continues with the drive unit determining a filtering constraint based on one or more parameters selected from a plurality of lists of agricultural parameters and filtering the agricultural data based on the filtering constraint to produce filtered agricultural data. The method continues with the drive unit determining processing of the filtered agricultural data and executing the processing of the filtered agricultural data.

An automated grain filling system including a sensor and a processor. The sensor is configured to detect at least a portion of an upper perimeter of a receiving container and at least a portion of an upper surface of a grain mound in the receiving container. The processor is configured to compare the detected portion of the upper perimeter and the detected portion of the upper surface, and direct the operation of a grain transfer element. The grain transfer element is configured to transfer grain from a supplying container to the receiving container. The directed operation of the grain transfer element is based at least in part on a result of the comparison of the detected portion of the upper perimeter and the detected portion of the upper surface.

An agricultural harvester (10) defining a longitudinal axis (LI) includes a chassis; at least one ground engaging traction member carried by the chassis (12); a cleaning system (26) carried by the chassis that is configured to clean crop material; and a generally vertical crop material elevator (60) carried by the chassis. The crop material elevator (60) includes a housing (78) having an inlet (76) formed therethrough; a driving loop (88) held within the housing; a plurality of paddles (90) connected to the driving loop; and a rotating element (92) configured to rotate the plurality of paddles about an axis of rotation that is generally parallel to the longitudinal axis. The agricultural harvester (10) also includes a crop material conveyor (70) configured to supply cleaned crop material to the inlet of the crop material elevator from the cleaning system.

There is provided a remote server that receives a machine type, an operating day, a position, a load factor, an engine rotational speed, a traveling speed, and a fuel consumption amount. The remote server identifies a working position based on the position, selects past operating days of an operation status corresponding to a current load factor of the same machine at the same working position, identifies a minimum fuel consumption amount out of fuel consumption amounts corresponding to the selected past operating days, and compares a current fuel consumption amount with the past minimum fuel consumption amount. If the current fuel consumption amount is larger than the past minimum fuel consumption amount, the remote server transmits an engine rotational speed and a traveling speed during a working period of the minimum fuel consumption amount, to a predetermined communication terminal corresponding to information for machine identification.