A method of processing objects using a programmable motion device is disclosed. The method includes the steps of providing an input conveyance system by which input bins of objects may be provided to a processing station that includes the programmable motion device that includes an end effector, perceiving at the processing station identifying indicia representative of an identity of a plurality of objects at an input area of the input conveyance system, grasping the an acquired object using the end effector, moving the acquired object toward an identified processing container using the programmable motion device, the identified processing container being associated with the identifying indicia and said identified processing container being provided as one of a plurality of processing containers at the processing station, and providing an output conveyance system in communication with the processing station, by which processing containers that contain processed objects may be provided.

A box handling system is disclosed for use in an object processing system. The box handling system includes a box tray including a recessed area for receiving a box, and the recessed area includes a plurality of floor and edge portions for receiving the box that contains objects to be processed.

Systems, devices, and methods for controlling a robot. Some methods include, in response to determining that an object enters a reachable area of the robot, triggering a first sensor to sense a movement of the object; determining first position information of the object based on data received from the first sensor; determining second position information of the object based on second data received from a second sensor; and generating a first prediction of a target position at which the object is operated by the robot. In this way, the robot can complete an operation for the object on the AGV within a limit operation time during which the AGV passes through the reachable area of the robot. Meanwhile, by collecting the sensing data from different sensor groups, a target position at which the object is handled by the robot may be predicted more accurately.

A method of processing objects using a programmable motion device is disclosed. The method includes the steps of providing an input conveyance system by which input bins of objects may be provided to a processing station that includes the programmable motion device that includes an end effector, perceiving at the processing station identifying indicia representative of an identity of a plurality of objects at an input area of the input conveyance system, grasping the an acquired object using the end effector, moving the acquired object toward an identified processing container using the programmable motion device, the identified processing container being associated with the identifying indicia and said identified processing container being provided as one of a plurality of processing containers at the processing station, and providing an output conveyance system in communication with the processing station, by which processing containers that contain processed objects may be provided.

A method includes: receiving a recycled wood workpiece populated with a set of metal fasteners; accessing an internal imaging scan; detecting the set of metal fasteners embedded in the recycled wood workpiece based on internal features detected in the internal imaging scan; for each metal fastener in the set of metal fasteners, extracting an initial position and an initial orientation of the metal fastener from the internal imaging scan; generating a virtual model of the recycled wood workpiece based on the internal imaging scan; accessing an image captured by an optical sensor; detecting a first metal fastener in the recycled wood workpiece; deriving a first position and a first orientation of the first metal fastener; and, in response to identifying the first metal fastener analogous to an initial metal fastener in the virtual model, isolating the first metal fastener in the virtual model and generating a fastener removal schedule.

A processing system including a singulation system is disclosed. The singulation system includes a conveying system for moving objects to be processed from a source area along a first direction, a detection system for detecting objects at the conveying system, and for selecting certain selected objects for redistribution on the conveying system, and a movement redistribution system for redistributing the certain selected objects on the conveying system for providing a singulated stream of objects.

A box handling system is disclosed for use in an object processing system. The box handling system includes a box tray including a recessed area for receiving a box, and the recessed area includes a plurality of floor and edge portions for receiving the box that contains objects to be processed.