A transport vehicle arrangement includes a transport vehicle, a transport implement coupled with the transport vehicle, a sensor arrangement for establishing an angular orientation of the transport implement relative to the transport vehicle, a wireless receiver for receiving harvester information related at least to the speed and direction of an agricultural harvester vehicle, and an electrical processing circuit coupled with the sensor arrangement and the wireless receiver. The electrical processing circuit is configured for steering the transport vehicle arrangement in a reverse direction such that the transport implement is positioned at a desired position relative to an unloading conveyance of the agricultural harvester vehicle, based upon the sensed angular orientation of the transport implement and the harvester information.

A transport vehicle arrangement includes a transport vehicle, a transport implement coupled with the transport vehicle, a sensor arrangement for establishing an angular orientation of the transport implement relative to the transport vehicle, a wireless receiver for receiving harvester information related at least to the speed and direction of an agricultural harvester vehicle, and an electrical processing circuit coupled with the sensor arrangement and the wireless receiver. The electrical processing circuit is configured for steering the transport vehicle arrangement in a reverse direction such that the transport implement is positioned at a desired position relative to an unloading conveyance of the agricultural harvester vehicle, based upon the sensed angular orientation of the transport implement and the harvester information.

First imaging device collects first image data, whereas second imaging device collects second image data of a storage portion. An image processing module identifies a rim of a container in either the first image data or the second image data. The image processing module then overlays an outline of the rim in an image presented on a display to an operator of a transferring vehicle. The image processing module further identifies the fill level of material in a receiving vehicle container and overlays this information in the image presented on the display.

An unloading arrangement includes and agricultural harvester and a transport vehicle arrangement. The agricultural harvester includes an unloading conveyance and a wireless transmitter for transmitting information relating at least to a speed and direction of the harvester. The transport vehicle arrangement includes a transport vehicle; a transport implement coupled with the transport vehicle; a sensor arrangement for establishing an angular orientation of the transport implement relative to the transport vehicle; a wireless receiver for receiving the transmitted information from the harvester; and an electrical processing circuit coupled with the sensor arrangement and the wireless receiver. The electrical processing circuit is configured for steering the transport vehicle arrangement in a reverse direction such that the transport implement is positioned at a desired position relative to the unloading conveyance, based upon the sensed angular orientation of the transport implement and the transmitted information received from the harvester.

A harvester monitoring system configured to determine one or more parameters associated with harvested items, the system comprising: a camera module having a field of view and configured to generate image data associated with the harvested items; a mounting bracket configured to secure the camera module to a harvester such that a conveyor of the harvester is within the field of view of the camera module; a location sub-system configured to determine and output location data representative of a geographical location of the harvester monitoring system; and a processing unit configured to receive the image data and the location data, to determine one or more parameters associated with the harvested items, and to record the one or more parameters in association with the location data on a computer readable medium.

A controller for a movable unloading apparatus of an agricultural harvesting machine, wherein the movable unloading apparatus directs crop material from the agricultural harvesting machine to a container driven in the vicinity of the agricultural harvesting machine, and wherein the controller receives image data representative of a stream of crop material as it passes from the unloading apparatus to the container; processes the image data in order to determine a shape of the stream of crop material in the image data; and sets an attribute of the unloading apparatus in accordance with the determined shape of the stream of crop material in order to direct the crop material from the unloading apparatus to the container.

An alignment module is adapted to determine the relative position of the spout and the cells in the container via processing of image data such that the spout is aligned within a target fill zone of the cells in accordance with a fill sequence or fill plan instructions in which (a) first, the alignment module is adapted to direct the spout to fill the container with the material in a first mode to a first target level that is less than a peak height of the container; (b) second, the fill level estimator is adapted to estimate the number of cells that are below the first target level after directing the spout to fill in the first mode; and (c) third, the alignment module is adapted to direct the spout to fill the container in a second mode to a second target level that is greater than the first target level if less than a threshold number of cells are below the first target level, where the second mode is generally opposite in direction to the relative spout-container movement of the first mode.

A crop harvesting machine has a machine body and a discharge spout attached to the machine body for overloading crop via a crop stream to a trailer. And electronic spout control and a discharge spout drive arrangement displaces the discharge spout relative to the machine body based on drive commands of the electronic spout control for guiding the crop stream to a target hit point at the trailer. A first sensor arrangement generates sensor information by optically identifying a reference feature at the trailer and detecting the position of the reference feature and/or space orientation of the reference feature. The second sensor arrangement generates sensor information by detecting a space orientation of the machine body, the discharge spout or both. The electronic spout control generates its drive commands for guiding the crop stream based on the sensor information.

A system and method of use of said system for communication between a farm implement and a receiving vehicle regarding a position of a chute of the farm implement relative to the farm implement. The system can include a transmitting module provided with the farm implement and a receiving module provided with the receiving vehicle. The transmitting module can include a power source, a position sensing circuit, an encoding circuit, and a transmitter for communicating with the receiving module regarding the position of the chute. The receiving module can include a power source, a user interface, a decoding circuit, and a receiver for receiving signals from the transmitter of the transmitting module indicative of the position of the chute.

A spout identification module is adapted to identify a spout (e.g., or an associated spout position) of the harvesting vehicle in the collected image data. A relative motion detector detects the relative motion of a receiving vehicle and the harvesting vehicle or detects the relative motion between the spout and a container of the receiving vehicle. An alignment module is adapted to determine the relative position of the spout and the cells in the container via processing of the image data such that the spout is aligned with the longitudinal axis or a lateral offset from the longitudinal axis based on the detected relative motion and where a longitudinal size of the deadband volume is adjusted based on the relative motion.