An agricultural implement and a metering apparatus for the agricultural implement to deliver a material to a material depositing apparatus. The metering apparatus includes metering roller, an integrated motor operatively connected to the metering roller, and a motor drive operatively connected to the integrated motor. A controller is operatively connected to the integrated motor and to the motor drive wherein the controller transmits a drive signal to drive the integrated motor and receives a status signal from the integrated motor. The drive signals drives the motor, which includes the roller coupled to a motor spindle, at a variable rate of speed to reduce pulsing. In one embodiment, the agricultural implement is an air cart.

A method for plant treatment, including: receiving a first measurement for a plant from a sensor as the sensor moves within a geographic area comprising a plurality of plants; in response to receipt of the first measurement and prior to receipt of a second measurement for a second plant of the plurality, determining a set of treatment mechanism operation parameters for the plant to optimize a geographic area output parameter based on the first measurement and historical measurements for the geographic area; determining an initial treatment parameter for the plant; and operating a treatment mechanism in a treatment mode based on the set of operating parameters in response to satisfaction of the initial treatment parameter.

The present invention relates to the technical field of controlling harmful organisms in the cultivation of cultivated plants. The present invention relates to a method for controlling harmful organisms, to a system for controlling harmful organisms and to the use of a digital application map for the application of one or more control agents against harmful organisms.

An automated outdoor modular vertical plant cultivation system forming a vertical structure is provided. The system includes a plurality of shelves, each shelf having a web and flanges; two posts, each post having a web and flanges. Each shelf of the plurality of shelves is mounted between the two posts with incremental spacing between each adjacent shelf along a vertical length of the two posts. The web of each shelf includes a plurality of openings for retaining planter vessels. The flanges of each shelf retain an embedded structural member. The system includes a fluid circulatory system including shelf irrigation piping extending longitudinally above the web of each shelf; and power or power and data and fluid members for the system distributed from vertical risers located in proximity to the web of the posts, wherein the flanges of the shelves have provisions to retain the fluid circulatory system.

A ground surface treatment vehicle and systems and methods using the same. In some embodiments, the vehicle may be adapted to autonomously or semi-autonomously identify and optionally treat target areas such as divots on turf surfaces. The vehicle may identify the target area via onboard or remote sensors and autonomously treat the target area by providing a treating material such as infill, seed, particulate matter, and liquids.

The present disclosure relates to a method of selectively treating vegetation in a field with a treatment apparatus that is configured to move in the field and to treat vegetation in the field. In particular, the method includes determining a location of target vegetation in the field and having the treatment apparatus, such as a sprayer, move to the target vegetation in the field and treat the tart vegetation in the field with a treatment applicator disposed on the treatment apparatus.

On a user interface presented on a display screen, an alteration point marker is rendered on a circular shape representing a center pivot irrigation system. The alteration point marker is aligned with an input point specified by user input. A fine position control may also be rendered on the display screen. The fine position control may comprise a first icon and a second icon, wherein the first icon is for repositioning the alteration point marker in a first circular direction, and wherein the second icon is for rotating the alteration point marker in the second circular direction.

A farming machine includes one or more image sensors for capturing an image as the farming machine moves through the field. A control system accesses an image captured by the one or more sensors and identifies a distance value associated with each pixel of the image. The distance value corresponds to a distance between a point and an object that the pixel represents. The control system classifies pixels in the image as crop, plant, ground, etc. based on depth information in in the pixels. The control system generates a labelled point cloud using the labels and depth information, and identifies features about the crops, plants, ground, etc. in the point cloud. The control system generates treatment actions based on any of the depth information, visual information, point cloud, and feature values. The control system actuates a treatment mechanism based on the classified pixels.

A fertilizer composition includes, relative to the total weight of composition, from 0.5 to 32.0 weight percentage of at least one sulphur water-soluble fertilizing nutrient chosen from a sulphur compound according to general formula (I.sub.S), and from 1.0 to 20.0 wt. % of water. The composition includes at least one phosphorus and calcium water-soluble fertilizing nutrient. The composition, relative to the total weight of composition, has a total calcium content from 0.5 to 32.0 wt. %, as expressed in wt. % of CaO, and a total phosphorus content from 3.0 to 65.0 wt. %, as expressed in wt. % of P.sub.2O.sub.5.

Various embodiments of an apparatus, methods, systems and computer program products described herein are directed to an agricultural observation and treatment system and method of operation. The agricultural treatment system may determine a first real-world geo-spatial location of the treatment system. The system can receive captured images depicting real-world agricultural objects of a geographic scene. The system can associate captured images with the determined geo-spatial location of the treatment system. The treatment system can identify, from a group of mapped and indexed images, images having a second real-word geo-spatial location that is proximate with the first real-world geo-spatial location. The treatment system can compare at least a portion of the identified images with at least a portion of the captured images. The treatment system can determine a target object and emit a fluid projectile at the target object using a treatment device.