A control unit to ascertain one or more parameters of a control program and/or of a control system for a robot manipulator, wherein the control unit includes: an interactive operating unit to display a first adjustment element and a specified region for the first adjustment element, wherein the first adjustment element is moveable within the specified region via an input of a user, the interactive operating unit further to detect a user-specified position of the first adjustment element and transmit the user-specified position; and a computing unit to receive the user-specified position and ascertain weightings for a specified cost function as a function of the position, wherein a sum of the weightings is constant for all positions of the adjustment element, the computing unit further to ascertain the parameters of the control program and/or of the control system for the robot manipulator based on the cost function.

A teaching apparatus includes a display unit that displays a command display area in which a plurality of input motion commands of a robot are displayed, an extraction display area in which at least one motion command extracted from the plurality of motion commands displayed in the command display area is displayed, and a settings input area in which details of the extracted motion command are set, and a display control unit that controls actuation of the display unit, wherein the display control unit extracts and displays a motion command related to one of position information, velocity information, and acceleration information of the robot out of the plurality of motion commands displayed in the command display area in the extraction display area.

A teaching support device configured to perform teaching to a robot which has a robot arm a tip of which is attached with a polishing tool, and which controls the robot arm with force control to perform a polishing task on an object includes a teaching point acquisition section configured to obtain information related to a plurality of teaching points set to the object, a polishing parameter acquisition section configured to obtain information related to a polishing parameter of the polishing task at the plurality of teaching points obtained by the teaching point acquisition section, and a display control section configured to display the teaching point out of the plurality of teaching points with a color based on the polishing parameter obtained by the polishing parameter acquisition section so as to overlap the object.

A method comprising identifying a robotic device and a calibration fixture in a vicinity of the robotic device; referencing the calibration fixture to a base of the robotic device to determine a first pose of the robotic device; receiving a 3D image of the environment, wherein the 3D image includes the calibration fixture; determining a second pose of the calibration fixture relative to the sensor; determining a third pose of the robotic device relative to the sensor based on the first pose and the second pose; receiving a plurality of trajectory points; determining a plurality of virtual trajectory points corresponding to the plurality of trajectory points based on the 3D image and the third pose; providing for display of the plurality of virtual trajectory points; and providing an interface for manipulating the virtual trajectory points.

A robot programming device including a storage unit configured to store two or more types of programming elements each graphically representing a function constituting a control program for a robot, an input unit configured to receive an operation by a user, and a program generator configured to generate the control program when the programming elements stored in the storage unit are selected and arranged by using the input unit. The programming elements include at least one editable programming element in which the function can be edited with a character string input that is input by using the input unit.

A programmable power tool and method and systems of programming a power tool using wireless communication. An external device having a processor and a transceiver establishes a communication link with the power tool. The external device receives, with the transceiver, a first mode profile stored on the power tool. The first mode profile is defined by a profile type and a first value associated with a parameter for executing the profile type. The external device displays a control screen including the profile type and the parameter at the first value, and receives a user input. The external device generates, in response to the user input, a second mode profile by modifying the parameter to be at a second value. The external device transmits, with the transceiver, the second mode profile to the power tool.

A control method for a robot system having a robot arm and executing an operation mode of the robot arm having an execution mode in which a motion program is executed and a teaching mode in which the motion program is taught, includes setting an upper limit velocity of a motion velocity of the robot arm to a first velocity when the operation mode is the execution mode, and setting the upper limit velocity to a second velocity lower than the first velocity when the operation mode is the teaching mode.

A programmable power tool and method and systems of programming a power tool using wireless communication. An external device having a processor and a transceiver establishes a communication link with the power tool. The external device receives, with the transceiver, a first mode profile stored on the power tool. The first mode profile is defined by a profile type and a first value associated with a parameter for executing the profile type. The external device displays a control screen including the profile type and the parameter at the first value, and receives a user input. The external device generates, in response to the user input, a second mode profile by modifying the parameter to be at a second value. The external device transmits, with the transceiver, the second mode profile to the power tool.

A non-transitory computer-readable storage medium stores a computer program that controls a processor to execute (a) processing of displaying an operation window for operation of a position and an attitude of a control point for a robot arm, (b) processing of storing the position and the attitude of the control point as a teaching point according to an instruction of a user, and (c) processing of associating and storing the operation window when the instruction is received in the processing (b) with the teaching point.

A robot system includes: a robot; a plurality of operation terminals that receive an input of a password for acquiring operation authority of the robot and an operation input for operating the robot from a user; and a robot controller communicable with the operation terminals . The robot controller drives, in a controlled manner, the robot according to operation from a single operation terminal among the operation terminals . The robot controller includes a password storage unit that stores a password for granting operation authority of the robot to the operation terminal . The robot controller further includes an operation authority grant processing unit that grants operation authority of the robot to a single operation terminal to which a proper predetermined password stored in the password storage unit is first input in a state in which operation authority of the robot is not granted to any operation terminal.