Abstract: A method of processing objects with a programmable motion device is disclosed. The method includes receiving a plurality of received objects at an input area proximate the programmable motion device, selecting and grasping a first object of the plurality of received objects from the input area using the programmable motion device, moving the first object to a cache area using the programmable motion device, said cache area being proximate the programmable motion device, selecting and grasping a second object of the plurality of received objects, moving the second object to a first destination location using the programmable motion device, selecting and grasping the first object from the cache area using the programmable motion device, and moving the first object to the first destination location using the programmable motion device.

Abstract: An automated packing system is disclosed for placing a plurality of objects into a shipping container. The system includes a supply bin receiving conveyor for receiving a supply bin at a supply station, the supply bin receiving conveyor including sensing unit for determining an extent of advancement of the supply bin in a conveyor direction along the supply bin receiving conveyor, a detection system for detecting a plurality of objects within the supply bin responsive to the position of the supply bin on the receiving conveyor as aligned by the alignment system, an object selection system for selecting a selected object from the plurality of objects to be placed into the shipping container, and a programmable motion device for grasping and acquiring the selected object from the plurality of objects at the supply station, and for placing the selected object into the shipping container in a selected orientation and pose.

Abstract: An automated packing system is disclosed for placing a plurality of objects into a shipping container. The system includes a supply bin receiving conveyor for receiving a supply bin at a supply station, a destination container location assessment system for positioning a destination container, a detection system for detecting a plurality of objects within the supply bin responsive to the position of the supply bin on the receiving conveyor as aligned by the alignment system, an object selection system for selecting a selected object from the plurality of objects to be placed into the shipping container, and a programmable motion device for grasping and acquiring the selected object from the plurality of objects at the supply station, and for placing the selected object into the shipping container in a selected orientation.

Abstract: A system is disclosed for processing objects using a programmable motion device. The system includes an end-effector of the programmable motion device for grasping an object from an in-feed container, and a control system for determining a payload guard for the selected object. The payload guard includes pointcloud data regarding volumetric data that include a volume occupied by the selected object, and the payload guard is determined responsive to at least one characteristic of the selected object and is provided specific to the selected object.

Abstract: A method of processing objects is disclosed. The method includes grasping an object with an end-effector of a programmable motion device, determining an estimated pose of the object as it is being grasped by the end-effector, determining a pose adjustment for repositioning the object for placement at a destination location in a destination pose, determining a pose adjustment to be applied to the object, and placing the object at the destination location in a destination pose in accordance with the pose adjustment.

Abstract: A system is disclosed for providing extrinsic calibration of a camera to a relative working environment of a programmable motion device that includes an end-effector. The system includes a fiducial located at or near the end-effector, at least one camera system for viewing the fiducial as the programmable motion device moves in at least three degrees of freedom, and for capturing a plurality of images containing the fiducial, and a calibration system for analyzing the plurality of images to determine a fiducial location with respect to the camera to permit calibration of the camera with the programmable motion device.

Abstract: An object processing system including an input area for receiving a plurality of objects to be processed, an output area including a plurality of destination containers for receiving any of the plurality of objects, a programmable motion device proximate the input area and the output area, the programmable motion device including an end-effector for grasping a selected object of the plurality of objects, and a perception system for detecting the unexpected appearance of any of the plurality of objects that is not associated with the end-effector of the programmable motion device.

Abstract: A system is disclosed for providing extrinsic calibration of a camera to a relative working environment of a programmable motion device that includes an end-effector. The system includes a fiducial located at or near the end-effector, at least one camera system for viewing the fiducial as the programmable motion device moves in at least three degrees of freedom, and for capturing a plurality of images containing the fiducial, and a calibration system for analyzing the plurality of images to determine a fiducial location with respect to the camera to permit calibration of the camera with the programmable motion device.

Abstract: A system is disclosed for providing extrinsic calibration of a camera to a relative working environment of a programmable motion device that includes an end-effector. The system includes a fiducial located at or near the end-effector, at least one camera system for viewing the fiducial as the programmable motion device moves in at least three degrees of freedom, and for capturing a plurality of images containing the fiducial, and a calibration system for analyzing the plurality of images to determine a fiducial location with respect to the camera to permit calibration of the camera with the programmable motion device.

Abstract: A water purification system comprises a bioreaction subsystem receiving contaminated input effluent and having a gas-lift anaerobic membrane bioreactor removing urea and organic matter to create a first effluent. A light-treatment subsystem receives the first effluent and exposes the first effluent to UV light to create a second effluent free from microorganisms. A reactor subsystem fluidically connects an ammonia-reducing reactor to the UV output and receives UV-treated second effluent and has a struvite regenerator connected to the ammonia-reducing reactor output, separating ammonia from the second effluent in the ammonia-reducing reactor, and outputting the ammonia. A separation subsystem fluidically connects to the reactor output and receives the second effluent substantially free from ammonia and has a continuous electro-deionization device separating brine/salts from the second effluent to produce potable water. A closed-loop includes an ammonia-converting subsystem and a sequential fertilizer producer.

Abstract: A water purification system comprises a bioreaction subsystem receiving contaminated input effluent and having a gas-lift anaerobic membrane bioreactor removing urea and organic matter to create a first effluent. A light-treatment subsystem receives the first effluent and exposes the first effluent to UV light to create a second effluent free from microorganisms. A reactor subsystem fluidically connects an ammonia-reducing reactor to the UV output and receives UV-treated second effluent and has a struvite regenerator connected to the ammonia-reducing reactor output, separating ammonia from the second effluent in the ammonia-reducing reactor, and outputting the ammonia. A separation subsystem fluidically connects to the reactor output and receives the second effluent substantially free from ammonia and has a continuous electro-deionization device separating brine/salts from the second effluent to produce potable water. A closed-loop includes an ammonia-converting subsystem and a sequential fertilizer producer.