The present invention is to identify the type of the farm product in a view through the wearable terminal and display the expected harvest time on the display of a wearable terminal in augmented reality. The system for displaying the harvest time of a farm product on the display of a wearable terminal, includes: an image acquisition unit that acquires the image of a farm product in a view through the wearable terminal; an identification unit that analyzes the image and identifies the type of the farm product; a selection unit that selects a determination criterion according to the type; a determination unit that analyzes the image based on the determination criterion and determines the color and the size; an estimation unit that estimates the harvest time of the farm product based on the determination result; and a harvest time display unit that displays the estimated harvest time of the farm product seen through the display of the wearable terminal thereon in augmented reality.

A machine to perform operations in a field includes a memory including instructions and processing circuitry that is configured by the instructions to receive coverage data from a server, where the coverage data is indicative of operations executed by another machine in the field. The processing circuitry that is further configured by the instructions to determine, using the coverage data, a strategy for performing operations in the field, where the strategy reduces the likelihood of the machine from processing an area of the field that was previously processed by the other machine. The processing circuitry that is further configured by the instructions to actuate the machine according to the strategy.

A plant harvesting system is provided for use with a vertical hydroponic tower, the hydroponic tower containing a plurality of vertically aligned plants. The harvesting system includes a payload transport system and a harvester. The payload transport system, which is configured to be positioned at a location adjacent to the hydroponic tower, includes a base and a lift tower, the lift tower including a motorized lift system configured to move the harvester upward and downward. In addition to cutting plant stalks while moving upwards along the face of the hydroponic tower, the harvester also groups and collects the plant leafs.

In an embodiment, a computer-implemented method is disclosed. The method comprises causing a camera to continuously capture surroundings to generate multiple images and causing a display device to continuously display the multiple images as the multiple images are generated. In addition, the method comprises processing each of one or more of the multiple images. The processing comprises identifying at least one of a plurality of diseases and calculating at least one disease score associated with the at least one disease for a particular image; causing the display device to display information regarding the at least one disease and the at least one disease score in association with a currently displayed image; receiving input specifying one or more of the at least one disease; and causing the display device to show additional data regarding the one or more diseases, including a remedial measure for the one or more diseases.

The invention relates to an agricultural tracker for a crop trailer, the Tracker provided for crop load traceability and data transportation from a cropping area to a destination, the crop trailer being towable by a hauler in the cropping area, the crop trailer being fillable by a harvester with crop during a harvest, the crop trailer being towable by a transporter during a transport between the cropping area and the mill, the crop trailer having a power line, the power line being designed to be connectable to an on-board computer of the transporter, to a power source of the transporter, and to the crop trailer.

The invention relates to an agricultural tracker for a crop trailer, the Tracker provided for crop load traceability and data transportation from a cropping area to a destination, the crop trailer being towable by a hauler in the cropping area, the crop trailer being fillable by a harvester with crop during a harvest, the crop trailer being towable by a transporter during a transport between the cropping area and the mill, the crop trailer having a power line, the power line being designed to be connectable to an on-board computer of the transporter, to a power source of the transporter, and to the crop trailer.

The present invention relates to a dry process for isolating clean glandular trichomes from a trichome bearing plant material, wherein the trichome bearing plant material is frozen at 20 C. and subject to shattering and softening sequence.

The present invention relates to a dry process for isolating clean glandular trichomes from a trichome bearing plant material, wherein the trichome bearing plant material is frozen at 20 C. and subject to shattering and softening sequence.

A combine including an engine for propelling the combine, a feeder housing for receiving cut crop, a separating system for threshing the cut crop to produce grain and residue, a residue chopper for chopping the residue, and a controller. The controller is configured to estimate risk factors that correlate to a risk of fire in the engine due to airborne particles created by at least one of the cut crop, the separating system or the residue chopper, estimate a fire risk based on the risk factors, and implement corrective action based on the estimated fire risk.

A combine including an engine for propelling the combine, a feeder housing for receiving cut crop, a separating system for threshing the cut crop to produce grain and residue, a residue chopper for chopping the residue, and a controller. The controller is configured to estimate risk factors that correlate to a risk of fire in the engine due to airborne particles created by at least one of the cut crop, the separating system or the residue chopper, estimate a fire risk based on the risk factors, and implement corrective action based on the estimated fire risk.