A production processing apparatus according to the present technology includes a first robot arm and a plurality of first tilt tables. The first robot arm is capable of conveying a work. On each of the plurality of first tilt tables, the work conveyed by the first robot arm can be mounted. The plurality of first tilt tables are tilted a predetermined angle from a horizontal surface at positions on a circumference of a circle with the first robot arm being a center, and the work is subjected to production processing in a state where the work is mounted on one of the plurality of first tilt tables.

A robot control system comprising a plurality of robots and a worker terminal that is capable of sending operation commands to a plurality of robots, by using wireless communications. The worker terminal has: an identification part that identifies a target robot to be used for work, from among a plurality of robots; a reception part that receives operation instructions for the robot from a worker; and a wireless communications part that sends operation commands to only the robot identified as the target robot by the identification part, when an operation instruction is received by the reception part.

Robotic applications are important in both indoor and outdoor environments. Establishing reliable end-to-end communication among robots in such environments are inevitable. Many real-time challenges in robotic communications are mainly due to the dynamic movement of robots, battery constraints, absence of Global Position System (GPS), etc. Systems and methods of the present disclosure provide assisted link prediction (ALP) protocol for communication between robots that resolves real-time challenges link ambiguity, prediction accuracy, improving Packet Reception Ratio (PRR) and reducing energy consumption in-terms of lesser retransmissions by computing link matrix between robots and determining status of a Collaborative Robotic based Link Prediction (CRLP) link prediction based on a comparison of link matrix value with a predefined covariance link matrix threshold. Based on determined status, robots either transmit or receive packet, and the predefined covariance link matrix threshold is dynamically updated. If the link to be predicted is unavailable, the system resolves ambiguity thereby enabling communication between robots.

A method and a system for manufacturing a mold for creation of complex objects by controlling and moving two end effectors of a robotic system is provided. The two end effectors have a flexible cutting element attached to, and extending between, the two end effectors. The method includes the steps of: defining at least one surface representing the inner surface of the mold; dividing the surface into a number of segments represented by planar curves on the surface; for each planar curve, calculating at least one elastic curve representing the planar curve; for each calculated elastic curve, calculating a set of data corresponding to placement and direction of the two end effectors for configuring the flexible cutting element to a shape corresponding to the calculated elastic curve; and sequentially positioning the end effectors according to each set of data. The flexible cutting element thereby cuts the mold from a block.

A processing system for processing experiment of biochemistry, biology and/or biotechnology includes a manual pipette which includes a piston and suctions and discharges liquid when the piston of the manual pipette is moved by external drive force, an automatic pipette which includes a piston and a built-in actuator and suctions and discharges liquid when the piston of the automatic pipette is moved by the actuator, a robot including a robotic arm which selects and grasps the manual or automatic pipette based on an operation command, and a robotic arm control device including circuitry which controls the robot such that the robotic arm selects and grasps the manual or automatic pipette based on the operation command. The operation command includes a collection of jobs that controls processes for processing a processing target in an experiment of biochemistry, biology and/or biotechnology and a container containing the processing target in a processing order.

To reduce the possibility that a robot will collide with an obstacle during an interference check work and improve the efficiency of the check work at a portion where the interference may occur, an information processing apparatus includes a control unit that controls an operation of a first robot, an acquisition unit that acquires position and orientation of a display apparatus which is attached with a body of an observer, a generation unit that identifies a visual field of the observer including the first robot based on the position and orientation of the display apparatus and an internal parameter of the display apparatus and generate an operation image of a second robot to be displayed in the identified visual field, as an object that may interfere with the first robot, based on operation data of the second robot, and an output unit that outputs the operation image to the display apparatus.

The robot includes a first arm having a first hand part provided to a tip end thereof, and at least one joint shaft provided between a pedestal and the first hand part, a first acting part configured to contact a given table-like body on which a plurality of workpieces are able to be placed, while the first acting part is provided to the first hand part, a controller, an imaging unit configured to two-dimensionally image a placement surface of the workpieces in the table-like body in a perpendicular direction to the placement surface, and a recognition part configured to recognize a position of the workpiece by performing a two-dimensional pattern matching based on an image two-dimensionally captured by the imaging unit. The controller vibrates the table-like body by controlling the first arm so that the first acting part acts on the table-like body.

A protocol created in such a format that a series of operations in cell culture are executable by a robot 10 is acquired (S1). The robot 10 is controlled to implement the operations according to the protocol (S2). In order to modify the protocol after the implementation of the operations, modification information on at least one action among basic actions which serve as bases for implementing the operations and is performed on an instrument used by the robot 10 in the operations, and complementary actions which complement the basic actions is acquired (S5). The robot 10 is controlled to produce cells by using the protocol modified based on the modification information (S7).

A robot control system comprising a plurality of robots and a worker terminal that is capable of sending operation commands to a plurality of robots, by using wireless communications. The worker terminal has: an identification part that identifies a target robot to be used for work, from among a plurality of robots; a reception part that receives operation instructions for the robot from a worker; and a wireless communications part that sends operation commands to only the robot identified as the target robot by the identification part, when an operation instruction is received by the reception part.

A processing system for processing experiment of biochemistry, biology and/or biotechnology includes a manual pipette which includes a piston and suctions and discharges liquid when the piston of the manual pipette is moved by external drive force, an automatic pipette which includes a piston and a built-in actuator and suctions and discharges liquid when the piston of the automatic pipette is moved by the actuator, a robot including a robotic arm which selects and grasps the manual or automatic pipette based on an operation command, and a robotic arm control device including circuitry which controls the robot such that the robotic arm selects and grasps the manual or automatic pipette based on the operation command. The operation command includes a collection of jobs that controls processes for processing a processing target in an experiment of biochemistry, biology and/or biotechnology and a container containing the processing target in a processing order.