In one embodiment, a system, comprising: an interface configured to receive input defining a target windrow; a windrower comprising a windrow forming assembly configured to form a windrow; one or more sensors; and a computing system configured to control formation of the windrow according to the target windrow based on the input and further based on input from the one or more sensors.

In one embodiment, a system, comprising: an interface configured to receive input defining a target windrow; a windrower comprising a windrow forming assembly configured to form a windrow; one or more sensors; and a computing system configured to control formation of the windrow according to the target windrow based on the input and further based on input from the one or more sensors.

A harvesting reel of an agricultural harvester having a plurality of support members mounted to a frame and a plurality of tines press-fitted onto the support member is disclosed. The plurality of tines includes a cam for securely attaching the tine to the support member via a press-fit application to forego the need for any additional separate fasteners and tools necessary for production of the harvesting reel and maintenance upkeep of the plurality of tines on the harvesting reel.

The disclosure relates to a braking system useful for providing stable braking of harvesters, such as self-propelled windrowers. The braking system utilizes respective service brakes associated with or integrated into a front drive system of the harvester, each of the service brakes configured to slow down or stop rotation of the respective front wheels. A controller/module is configured to receive inputs and feedback parameters to actuate components of the harvester to slow down or stop the harvester.

The disclosure relates to a braking system useful for providing stable braking of harvesters, such as self-propelled windrowers. The braking system utilizes respective service brakes associated with or integrated into a front drive system of the harvester, each of the service brakes configured to slow down or stop rotation of the respective front wheels. A controller/module is configured to receive inputs and feedback parameters to actuate components of the harvester to slow down or stop the harvester.

An agricultural machine for harvesting a crop, which is equipped with a harvesting head, includes: a mowing bar for harvesting the crop; at least one transportation system adapted to transport the crop cut by the mowing bar to a collection mouth of the harvesting head. The at least one transportation system includes: a first transmission system having a first flexible element coupled with a pair of first rotary elements; a second transmission system having a second flexible element coupled with a pair of second rotary elements; at least one arm coupled with both of the first flexible element and the second flexible element, in such a way as to extend on the harvesting head substantially transversally relative to the mowing bar both during a transportation step for transporting the crop cut by the mowing bar and during a return step.

An agricultural machine for harvesting a crop, which is equipped with a harvesting head, includes: a mowing bar for harvesting the crop; at least one transportation system adapted to transport the crop cut by the mowing bar to a collection mouth of the harvesting head. The at least one transportation system includes: a first transmission system having a first flexible element coupled with a pair of first rotary elements; a second transmission system having a second flexible element coupled with a pair of second rotary elements; at least one arm coupled with both of the first flexible element and the second flexible element, in such a way as to extend on the harvesting head substantially transversally relative to the mowing bar both during a transportation step for transporting the crop cut by the mowing bar and during a return step.

A 3D point cloud is formed of the grippers of a load handling device in relation to a device which is moved horizontally above a load in the load handling device and to which the grippers are connected to be moved in the vertical direction. The grippers are positioned in relation to the horizontally movable device by comparing the formed 3D point cloud with at least one 3D model of the grippers.

An agricultural vehicle including a chassis and a header carried by the chassis and including a cutter mechanism. The header is adjustable in a vertical direction. The agricultural vehicle also includes a header actuator connected to the header and configured to adjust the header in the vertical direction, and a controller coupled to the header actuator. The controller is configured for receiving an input command for controlling an operation of the header actuator to achieve a lifting height, operating the header actuator in conformance with the input command, and terminating the operating of the header actuator.

Mowing characteristics of a mowing operation are detected. The mowing characteristics indicate that the mower is engaged and also whether a merger component is engaged. A center line of a windrow is identified based upon a location of the mower and the mowing characteristics. An action signal is generated based upon the center line of the mower.