The invention relates to a method and system for picking up and collecting plant matter, in particular plant embryos. To pick up the plant matter, a pick-up unit is used that is mounted to a robotic arm. According to the invention, two separate imaging steps are performed at two different positions of the pick-up unit. The first imaging step is performed to identify an isolated piece of plant matter. The second imaging step is performed when the pick-up unit is at a confirming position and enables a verification of whether a piece of plant matter has been picked up or not. The confirming position is in between the position of the pick-up unit for picking up plant matter and the position for depositing plant matter in suitable receptacles.

A device and a method for picking and collecting Brasenia schreberi based on a machine vision. The device includes a supporting mechanical arm, a collection device, two working mechanical arms, a picking manipulator, a grasping manipulator, a control box, and a visual system. The supporting mechanical arm is fixed on a front end of a boat; the two working mechanical arms are fixed on a front end of the supporting mechanical arm; the picking manipulator and the grasping manipulator are mounted on tail ends of the two working mechanical arms, respectively; and the collection device is fixed on the boat; the visual system determines a location of Brasenia schreberi and sends the location to the control box; the control box controls the two working mechanical arms, the grasping manipulator, and the picking manipulator to complete the grasping and picking of Brasenia schreberi; and the collection device collects Brasenia schreberi.

A device and a method for picking and collecting Brasenia schreberi based on a machine vision. The device includes a supporting mechanical arm, a collection device, two working mechanical arms, a picking manipulator, a grasping manipulator, a control box, and a visual system. The supporting mechanical arm is fixed on a front end of a boat; the two working mechanical arms are fixed on a front end of the supporting mechanical arm; the picking manipulator and the grasping manipulator are mounted on tail ends of the two working mechanical arms, respectively; and the collection device is fixed on the boat; the visual system determines a location of Brasenia schreberi and sends the location to the control box; the control box controls the two working mechanical arms, the grasping manipulator, and the picking manipulator to complete the grasping and picking of Brasenia schreberi; and the collection device collects Brasenia schreberi.

A fruit vegetable harvesting device includes an operating tool (e.g., a cutting mechanism that operates a fruit vegetable (e.g., cuts a stalk), a fruit vegetable holding mechanism that sucks and holds the fruit vegetable, and an advance and retreat mechanism that advances and retreats the cutting mechanism to and from the fruit vegetable held by the fruit vegetable holding mechanism. The advance and retreat mechanism includes an extendable arm unit having a tip end to which the cutting mechanism is attached, and the cutting mechanism is held to be rotatable about a second rotation shaft with respect to the arm unit.

A robotic harvesting platform system for harvesting or diluting fruits in an orchard, the system comprising: a support frame, an elongated platform attached to said support frame, two or more robotic harvesting units associated with said elongated platform at different points thereon, one or more fruit detection units for identifying location and position of said fruits, wherein: said robotic harvesting platform system is designed to harvest fruits from a tree(s) at different heights simultaneously; and each robotic harvesting unit is designed to operate independently from the other robotic harvesting units.

A robotic harvesting platform system for harvesting or diluting fruits in an orchard, the system comprising: a support frame, an elongated platform attached to said support frame, two or more robotic harvesting units associated with said elongated platform at different points thereon, one or more fruit detection units for identifying location and position of said fruits, wherein: said robotic harvesting platform system is designed to harvest fruits from a tree(s) at different heights simultaneously; and each robotic harvesting unit is designed to operate independently from the other robotic harvesting units.

Disclosed is a fruit picking method based on a visual servo control robot, comprising: placing a throwing apparatus and a fixed photosensitive device at a first position to obtain a fixed photosensitive image; generating a first throwing path, a second throwing path, and a third throwing path; arranging recovery apparatuses; performing simultaneous rotational throwing processing to throw a first wireless photosensitive device, a second wireless photosensitive device, and a third wireless photosensitive device; receiving a first photosensitive image sequence and a second photosensitive image sequence of the first wireless photosensitive device and the second wireless photosensitive device; receiving a third photosensitive image sequence of the third wireless photosensitive device; generating a spatial position of a fruit on a to-be-picked fruit tree; and performing fruit picking processing using the visual servo control robot according to the spatial position of the fruit.

A produce picking device comprising: one or more robotic actuators; a camera; a vacuum device; a conveyor conduit having a sealable picking effector, wherein the conveyor conduit includes a plurality of deformable lips substantially equally distributed along and between a first end and an exit aperture of the conveyor; and a controller, having a processor configured to: receive one or more images of a plant from the camera; detect, using an object detection model, the pickable object of the plant; determine a position of the pickable object relative to the camera; control the one or more robotic actuators according to the determined position; and actuate the vacuum device to sealingly engage, pick and convey the pickable object. The pickable object that is picked is incrementally conveyed and supported between the plurality of deformable lips along the conveyor conduit from the first end to the exit aperture.

A produce picking device comprising: one or more robotic actuators; a camera; a vacuum device; a conveyor conduit having a sealable picking effector, wherein the conveyor conduit includes a plurality of deformable lips substantially equally distributed along and between a first end and an exit aperture of the conveyor; and a controller, having a processor configured to: receive one or more images of a plant from the camera; detect, using an object detection model, the pickable object of the plant; determine a position of the pickable object relative to the camera; control the one or more robotic actuators according to the determined position; and actuate the vacuum device to sealingly engage, pick and convey the pickable object. The pickable object that is picked is incrementally conveyed and supported between the plurality of deformable lips along the conveyor conduit from the first end to the exit aperture.

A harvester travels along a route within a field and selectively harvests edible crowns ready for harvesting. As the harvester travels along the route, a position of the harvester and/or the edible crowns may be determined using an encoder, imaging device(s), and/or navigational system(s). For example, image(s) captured by the imaging device(s) may be used to determine a location of the edible crowns and/or global positioning satellite (GPS) coordinates may indicate a location of the harvester within the field. These locations may be used for instructing harvesting components to harvest the edible crowns. For example, the harvester may include robotic arms having end effectors that harvest the edible crowns. Knowing the location of the edible crowns and/or the harvester therefore allows for the accurate placement of the end effectors for harvesting the edible crowns.