A teaching device for performing teaching operations of a robot includes a selection unit which, during a teaching operation or after a teaching operation of the robot, moves among a plurality of lines of a program of the robot and selects a single line, an error calculation unit which calculates, after the robot has been moved by hand-guiding or jog-feeding to a teaching point which has already been taught in the selected single line, a position error between the teaching point and a position of the robot after movement, and an instruction unit which instructs to re-teach the teaching point when the position error is within a predetermined range.

The invention relates to a robot system comprising at least one robot arm and a control unit which is designed such that it can pre-set at least one pre-defined operation that can be carried out by the robot system. The robot system also comprises a display device and at least one input device applied to the robot arm, which is designed such that the sequence of operations of the robot system can be set and/or the pre-defined operations of the robot system can be parameterised by means of the input device, and which is also designed such that it allows the user to control, on a graphic user interface, represented by the control unit on the display device, the setting of the pre-defined operations of the robot system, the setting of the sequence of operations and/or the parameterisation of the pre-defined operations for the robot system.

The invention relates to a robotic system with at least one robotic arm and a control unit, which is designed so that it can preset at least one predefined operation that can be carried out by the robotic system. In addition, the robotic system comprises at least one input device attached to the robotic arm which is designed so that the predefined operations of the robotic system can be parameterized by means of the input device. In this case, the input device is designed so that it can provide a user-directed feedback to a user of the robotic system when setting the execution of operations, the logical sequence of the operations and/or parameterizing the predefined operations for the robotic system.

A robot system comprises a manipulator and a controller therefore, wherein the controller supports impedance-based control of a lead-through operation mode, characterized in that the controller is switchable between impedance-based and admittance-based control of the lead-through mode.

A method for a remote collaboration, as a method for providing an augmented reality (AR)-based remote collaboration between a robot located in a worksite, a field worker terminal, and a remote administrator terminal located outside the worksite, includes acquiring a captured image including a field image captured by a robot located at the worksite or a captured image including a user image captured by the field worker terminal, displaying the captured image of the worksite, generating virtual content based on an input of a remote administrator and a field worker with respect to the displayed captured image, and displaying an AR image in which the virtual content is augmented on the displayed captured image.

The control system includes: a plurality of controllers that respectively control a plurality of devices including at least robots; and an environment manager that is communicable with the plurality of controllers. The environment manager includes an environment information storage that stores environment information, and an information update unit that updates environment information according to an operation of the plurality of devices. Each of the plurality of controllers includes a condition monitor that monitors whether environment information stored in the environment device storage satisfies a predetermined condition and an operation execution unit that controls a corresponding device of the plurality of devices to execute a predetermined operation in a case where the environment information satisfies a predetermined condition.

A robot operating device is mounted to a robot. The robot is capable of performing a motion by means of lead-through control in which a force applied by an operator is detected and a position and an orientation are changed in accordance with the detected force and the robot operating device including: a bracket that is secured to a flange at a distal end of the robot and with which an elongated tool is attached at a decentered position with respect to a rotation axis of the flange so as to be parallel to a plane containing the rotation axis; and two handles that are secured to the bracket and that are respectively grasped by two hands of the operator, wherein the handle is disposed in the plane so as to extend in a direction along a longitudinal axis of the tool, and the handle is disposed in a vicinity of the tool so as to extend in a direction intersecting the plane.