A metering system includes a plurality of metering elements that are independently controllable. A calibration method of the present disclosure includes generating calibration factors for the individual metering elements. Also, a method of the present disclosure includes operating the metering elements according to the respective calibration factor.

This work map provision server includes: a storage unit that has stored therein a plurality of work maps which individually comprise work setting information of respective small regions in a farm field and attribute information of the work maps; and a map selection unit that, upon receipt of a map acquisition request from a work machine, selects, from among the plurality of maps, one or more work maps suited to said map acquisition request on the basis of map narrowing-down information contained in said map acquisition request and/or reception time and date of said map acquisition request and also on the basis of the attribute information of the respective work maps, and then transmits the selected work maps to the work machine.

The present invention belongs to the field of machines and agricultural implements, more concretely agricultural implements for the mixture and/or distribution of a solid product having variable granulometry, such as, for example, silage, crumbs, clusters, in powder, among others, such as feedstuff and mineral supplements. Moreover, the present invention brings as main advantage, relative to the implements known to the state of the art, the fact that it has a torque limiting means over the movable parts, such as helical pitch threads, augers and/or beater arms, so that there is no overload in the hydraulic system of the implement that is operatively associated to the tractor unit. Further, the invention in question counts on a protection means, with paralyzation and partial reversal and/or rotation reducer, in an independent and/or synchronized form, of the movable parts, in case the hydraulic circuit of the implement detects a pressure that is over the preestablished value, avoiding damages and unscheduled stops of the implement.

Embodiments of the present invention provide techniques, including systems and methods, for planting using planting pods. A planting system can be configured to deliver pods including a payload (e.g., seeds, cuttings, or other planting materials) into or onto the ground at a predetermined location. In some embodiments, the automated planting system can include a mapping system that receives various sensor inputs and generates a map of a planting area. A pod planting system may use the map of the planting area to deliver pods to the planting area. The pod planting system may be executed automatically using the maps generated by the mapping system and/or manually by a remote operator. Each pod can include a payload to be planted on or in the ground by the pod planting system. Pods may be customized depending on the types of plants being planted, the terrain, prior planting results, etc.

Described herein are systems, implements, and methods for seed orientation during planting operations of agricultural plants of agricultural fields. In one embodiment, a system for seed orientation includes a seed disk capable of rotation in operation and having at least one singulator to adjust an orientation of seed to a desired seed orientation for placement within a furrow during planting. A vision system in proximity to the seed disk determines seed orientation data for seed on the seed disk.

Work vehicle display systems and methods for generating map displays including automatic section control (ASC) lookahead symbology are disclosed. In embodiments, the work vehicle display system includes a display device on which a map display is generated, a position tracking data source, and a controller architecture. The controller architecture is operable in an ASC lookahead mode in which the controller architecture: (i) projects a future position of the work implement at a future timepoint based, at least in part, on data received from the position tracking data source; (ii) projects future operative states of the implement sections at the future timepoint when the implement sections are controlled by an ASC system; and (iii) generates ASC lookahead symbology on the map display visually indicating the projected future position of the work implement and the projected future operative states of the implement sections.

A crop orientation system includes a controller having a processor and memory coupled to the processor and storing instructions. The processor executes the stored instructions to: determine first heading values for a first vehicle at intervals during a first crop planting event over a first field; generate a first set of histogram values representing the first heading values for the first vehicle during at least a portion of the first crop planting event over the first field; and generate display signals to render a first histogram display based on the first set of histogram values for a first user associated with the first vehicle.

A field planting system for planting seeds of at least two plant genotypes in a field includes a multi-variety planter operable to plant the seeds of the at least two plant genotypes in the field. The field planting system also includes a controller in operable communication with the multi-variety planter. The controller is configured to receive georeferenced field information for the field and plant information for the at least two plant genotypes, and generate a planting map for the field based on the georeferenced field information and the plant information, the planting map including a planting pattern for interplanting the seeds of the at least two plant genotypes. The controller is further configured to monitor a location of the multi-variety planter in the field, and control the multi-variety planter to plant the seeds of the at least two plant genotypes in the field according to the planting map.

A system and method that automatically monitors product use, such as the type and amount of agricultural and/or horticultural product stored in and dispensed from a cartridge over time and/or by geographic location. Monitored data are stored in memory such as a tag on the cartridge and may be transmitted to a server for storage, aggregation, and analysis. The cartridge may be authenticated before being authorized for use for the benefit of a current user in dispensing the product. The cartridge may be refilled after confirmation of authorization codes on the cartridge and refilling equipment tags. The cartridge may be calibrated automatically based on the bulk density or other parameter of the product in the cartridge. Data may be aggregated from a plurality of cartridges automatically. As-applied data from individual cartridges may be used to verify, independent of operator input, treated area coverage and product application rate.

This autonomous traveling system is provided with a path preparation unit, a forward movement control unit, a backward movement control unit, and a turn control unit. The path preparation unit prepares a plurality of straight line paths. The forward movement control unit causes a rice planting machine to execute work and simultaneously causes the rice planting machine to travel along a straight line path by performing at least autonomous steering. After an operator has stopped the rice planting machine traveling toward an edge of a field, the backward movement control unit causes the rice planting machine to travel backward in an autonomous manner or in accordance with operation by the operator, without causing the rice planting machine to execute any work. On conditions that, after the rice planting machine moving backward by the backward movement control unit has stopped in an autonomous manner or in accordance with operation by the operator and an instruction for forward movement has been provided by the operator, the turn control unit causes the rice planting machine to turn toward a predetermined straight line path by performing at least autonomous steering without causing the rice planting machine to execute any work.