A multi-mode robotic end effector is disclosed. In various embodiments, a multi-mode robotic end effector includes a first set of structures configured to grasp objects in a first mode of operation; a retraction mechanism configured to retract the first set of structures to a stowed position associated with a second mode of operation in response to a retraction command; and a second set of structures configured to grasp objects in a second mode of operation.

A processing system is disclosed for processing objects. The processing system includes a perception system for providing perception data regarding an object, and a primary transport system for providing transport of the object along a primary direction toward a processing location that is identified based on the perception data.

A method of manipulating boxes includes receiving a minimum box size for a plurality of boxes varying in size located in a walled container. The method also includes dividing a grip area of a gripper into a plurality of zones. The method further includes locating a set of candidate boxes based on an image from a visual sensor. For each zone, the method additionally includes, determining an overlap of a respective zone with one or more neighboring boxes to the set of candidate boxes. The method also includes determining a grasp pose for a target candidate box that avoids one or more walls of the walled container. The method further includes executing the grasp pose to lift the target candidate box by the gripper where the gripper activates each zone of the plurality of zones that does not overlap a respective neighboring box to the target candidate box.

A method for operating a robotic system includes determining a discretized object model based on source sensor data; comparing the discretized object model to a packing plan or to master data; determining a discretized platform model based on destination sensor data; determining height measures based on the destination sensor data; comparing the discretized platform model and/or the height measures to an expected platform model and/or expected height measures; and determining one or more errors by (i) determining at least one source matching error by identifying one or more disparities between (a) the discretized object model and (b) the packing plan or the master data or (ii) determining at least one destination matching error by identifying one or more disparities between (a) the discretized platform model or the height measures and (b) the expected platform model or the expected height measures, respectively.

An automated shuttle sorter is disclosed that includes a carriage that is movable from a load position at which the carriage may be loaded, and at least two destination locations into which any contents of the carriage may be provided from the carriage.

A system and method for operating a robotic system to coordinate and integrate multiple tasks for performing operations is disclosed. The robotic system may identify a set of tasks associated with a triggered operation. Accordingly, the robotic system may coordinate and control actions across subsystems, robotic units, task stations, or a combination thereof to sequentially perform the set of tasks and complete the operation.

Disclosed are a method and device for moving an article based on dense storage, a storage medium, and a dense storage system. The method includes: upon detecting that a target shelf is blocked by at least one blocking shelf, instructing a first self-driven robot to remove the blocking shelf and/or a blocking storage box to make the target shelf not blocked by the blocking shelf or make a target storage box on the target self not blocked by the blocking storage box; instructing the first self-driven robot to carry the blocking shelf and/or the blocking storage box and perform a circular movement along a robot travelling passage; and instructing a second self-driven robot to move the target shelf from its current position to a workstation, or instructing the second self-driven robot to remove the target storage box from the target shelf and move the target storage box to the workstation.

Robotic systems can autonomously pick a particular desired item from a mixed inventory storage location that includes multiple differing types of items. The autonomous robotic system can thereby facilitate order fulfillment and inventory management processes in an efficient manner. In particular, the systems and methods described herein can greatly reduce the amount of time required for a human worker to pick orders. The systems described take over many of the tasks related to picking items. Accordingly, the efficiency of order picking processes, as measured by the number of line items picked per human labor hour for example, is greatly enhanced.

A method for operating a robotic system includes determining a discretized object model based on source sensor data; comparing the discretized object model to a packing plan or to master data; determining a discretized platform model based on destination sensor data; determining height measures based on the destination sensor data; comparing the discretized platform model and/or the height measures to an expected platform model and/or expected height measures; and determining one or more errors by (i) determining at least one source matching error by identifying one or more disparities between (a) the discretized object model and (b) the packing plan or the master data or (ii) determining at least one destination matching error by identifying one or more disparities between (a) the discretized platform model or the height measures and (b) the expected platform model or the expected height measures, respectively.

A system and method for operating a robotic system to coordinate and integrate multiple tasks for performing operations is disclosed. The robotic system may identify a set of tasks associated with a triggered operation. Accordingly, the robotic system may coordinate and control actions across subsystems, robotic units, task stations, or a combination thereof to sequentially perform the set of tasks and complete the operation.