To generate link information containing association between machining information and/or machine information in a machining program, and an optical feature in a workpiece image. A link information generation device 1 comprises: a machining information acquisition unit 111 that acquires machining information in a machining program for a machine tool that executes machining on a workpiece W; a machine information acquisition unit 112 that acquires machine information about the machining state of the machine tool; a workpiece image acquisition unit 13 that acquires image information about the workpiece W; an optical feature setting unit 14 that sets an image area having an optical feature in the image information about the workpiece W; and a link information generation unit 15 that generates link information containing association between the image area having the optical feature, and the machining information and/or the machine information about a workpiece area associated with the image area.

A computer-implemented method of engineering autonomous system with reusable skills includes displaying a graphical user interface simulating a physical environment. The graphical user interface depicts one or more simulated objects corresponding to one or more physical objects. Graphical markers are created on the simulated objects based on instructions provided by a user via the graphical user interface. The position and orientation of each graphical marker is determined with respect to the simulated objects. A skill function is created which comprises a functional description for using a controllable physical device to interact with the physical objects based on the position and orientation of each graphical marker. Executable code operable to perform the skill function is created and used to actuate the controllable physical device.

What is disclosed is a motion model calculation device which easily creates a motion model for a drive device. The motion model calculation device is connected to a robot arm including a plurality of arms and a joint mechanism which pivotally joins the plurality of arms to a connection part, outputs a predetermined motion command to the joint mechanism, acquires a driving state of the joint mechanism caused by a motion corresponding to the motion command, and calculates, on the basis of the motion command and the driving state, a motion model representing the relationship between an input value representing an input to the joint mechanism and an output value of the joint mechanism with respect to the input.

Methods and apparatus that adapt programming and/or control of a robot. The robot has at least one attachment area that can removably couple with any one of a plurality of end effectors. The programming and/or control is adapted based on received parameters of an end effector attached (or to be attached) to the attachment area of the robot. Some implementations are directed to adapting graphical user interface output of a robot programming application based on one or more parameters of an end effector for a robot being programmed via the robot programming application. Some implementations are directed to adapting control of a robot based on one or more parameters of an end effector attached (or to be attached) to the robot.

A manipulator system of the present invention includes a manipulator driven by a motor, an operating part for generating an operation input for operating the manipulator, and a controller for controlling the motor. The controller controls for receiving a first current and a first voltage of the motor, for calculating a first resistance value of the motor on the basis of the first current and the first voltage, for controlling the motor to rotate thereof under a predetermined angle, for receiving a second current and a second voltage of the motor after rotating the motor, for calculating a second resistance value of the motor based on the second current and the second voltage, for adopting the larger one of the first resistance value and the second resistance value as a calculated resistance value, and for controlling the motor based on the operation input and the calculated resistance value.

A method and system for determining at least one property associated with a selected axis of a manipulator (2). The elasticity of the links (4, 6, 9, 10, 13, 14) and joints (3, 5, 7, 8, 11, 12) of a manipulator (2) can be modeled and the resulting compliance can be determined. A certain method is used to control the manipulator (2) such that certain quantities related to actuator torque and/or joint position can be determined for a certain kinematic configuration of the manipulator (2). Depending on the complexity of the manipulator (2) and the number of properties that are of interest, the manipulator (2) is controlled to a plurality of different kinematic configurations in which configurations the quantities are determined. Thereafter, a stiffness matrix (K) for each component of the manipulator (2) can be determined, and a global stiffness matrix (MSM) for the total manipulator (2) can be determined in order to determine at least one property of the selected axis.

A method parametrizes a model of a manufacturing machine of a manufacturing machine system. The manufacturing machine has at least one axis with a position-controlled drive, by which at least a first machine element can be adjusted relative to a second machine element. A maximum movement range, a maximum movement speed for the axis and a maximum electrical power that can be supplied to the drive of the axis are recorded, as boundary conditions for an identification run, in a control device comprised by the manufacturing machine system.

A device is provided that includes a plurality of hardware segments. The device also includes a plurality of actuators to actuate the plurality of hardware segments. The device also includes a controller to cause at least one of the plurality of actuators to adjust positions of at least one of the plurality of hardware segments to correspond to a particular arrangement, to determine physical parameters of the device responsive to the adjustment of the positions, and to generate an identification code for the device based on the physical parameters. The physical parameters may include one or more of electrical parameters of the plurality of actuators or mechanical parameters of the plurality of actuators.

Methods and apparatus that adapt programming and/or control of a robot. The robot has at least one attachment area that can removably couple with any one of a plurality of end effectors. The programming and/or control is adapted based on received parameters of an end effector attached (or to be attached) to the attachment area of the robot. Some implementations are directed to adapting graphical user interface output of a robot programming application based on one or more parameters of an end effector for a robot being programmed via the robot programming application. Some implementations are directed to adapting control of a robot based on one or more parameters of an end effector attached (or to be attached) to the robot.

A device is provided that includes a plurality of hardware segments. The device also includes a plurality of actuators to actuate the plurality of hardware segments. The device also includes a controller to cause at least one of the plurality of actuators to adjust positions of at least one of the plurality of hardware segments to correspond to a particular arrangement, to determine physical parameters of the device responsive to the adjustment of the positions, and to generate an identification code for the device based on the physical parameters. The physical parameters may include one or more of electrical parameters of the plurality of actuators or mechanical parameters of the plurality of actuators.