A robot is described. The robot includes a camera device, a memory device, and a processor configured to execute instructions stored in the memory device. The instructions, when executed by the processor, cause the processor to receive an input prompting the robot to navigate to a location in a venue for providing photo services with the camera device and cause the robot to navigate to the location. The instructions further cause the processor to capture, by the camera device, at least one photo at the location and provide access to a copy of the at least one photo to an authorized person.

An automated assembly apparatus includes an assembly robot, which has a plurality of hands of different heights and an XY-axis moving unit movable in a horizontal direction, and a plurality of operation base units which have operation bases and Z-axis moving unit capable of moving the operation bases in a vertical direction. The automated assembly apparatus further includes a control unit which raises in advance, before the assembly robot reaches above the operation bases, the operation bases by the Z-axis moving unit to positions where the operation bases do not interfere with the plurality of hands.

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.

In an embodiment a system includes: a wafer store comprising a wafer configured for processing by a semiconductor processing tool; a cart configured to transport the wafer from the wafer store along a predetermined path; a robotic arm, the robotic arm configured to: read wafer data from the wafer store, transport the wafer from the wafer store to the cart, send the wafer data to the cart, wherein the cart is configured to transport the wafer to a location in response to the wafer data.

An automated assembly apparatus includes an assembly robot, which has a plurality of hands of different heights and an XY-axis moving unit movable in a horizontal direction, and a plurality of operation base units which have operation bases and Z-axis moving unit capable of moving the operation bases in a vertical direction. The automated assembly apparatus further includes a control unit which raises in advance, before the assembly robot reaches above the operation bases, the operation bases by the Z-axis moving unit to positions where the operation bases do not interfere with the plurality of hands.

A delivery robot includes a propulsion system, a storage area arranged to contain at least one item for delivery, a wireless interface, a memory device, and a processor. The processor is configured to receive, from a robot management system (RMS) and via the wireless interface, a delivery request, wherein the delivery request identifies at least the item contained within the storage area, a delivery location, and a recipient. The processor is also configured to control the propulsion system to navigate the delivery robot to the delivery location in response to receiving the delivery request, receive an authentication credential from the recipient, authenticate the recipient based upon the authentication credential, and in response to authenticating the recipient, control the storage area to provide the at least one item contained within the storage area to the recipient.

An automated assembly apparatus includes an assembly robot, which has a plurality of hands of different heights and an XY-axis moving unit movable in a horizontal direction, and a plurality of operation base units which have operation bases and Z-axis moving unit capable of moving the operation bases in a vertical direction. The automated assembly apparatus further includes a control unit which raises in advance, before the assembly robot reaches above the operation bases, the operation bases by the Z-axis moving unit to positions where the operation bases do not interfere with the plurality of hands.

A production system includes a manufacturing apparatus, a post-processing apparatus, conveyors for transporting workpieces manufactured by the manufacturing apparatus to the post-processing apparatus, an image sensor arranged above a conveyor connected to the manufacturing apparatus to recognize workpieces traveling on the conveyor and measure the workpiece density on the conveyor, a robot that picks each workpiece on the conveyor connected to the manufacturing apparatus, and a controller. The controller performs a first task for identifying each workpiece position on the conveyor using a recognition result from the image sensor and causing the robot to pick a target workpiece, a second task for processing in the manufacturing apparatus, a third task for processing in the post-processing apparatus, and a fourth task for adjusting a processing capability of the manufacturing apparatus and/or the post-processing apparatus using the workpiece density measured by the image sensor.

According to one embodiment, a data collection system includes an event data collector, a state machine generator, a state machine list, and a state machine driver. The event data collector collects sense signals respectively as a plurality of event data. The state machine generator generates a state machine as a model corresponding to the workpiece. One of the sense signals is acquired when the workpiece is fed into the processing system. The state machine generator generates the state machine and generates an ID for the state machine when the event data collector collects one of the plurality of event data corresponding to the one of the sense signals. The state machine driver drives the state machine retained in the state machine list by sending, to the state machine retained in the state machine list, an event corresponding to another one of the sense signals.