A robot programming device is provided with: a robot model movement unit that moves a prescribed movable part of a robot model from a first position to a second position in accordance with instruction content; an arm inversion detection unit that detects whether or not a prescribed state has occurred in which, when the prescribed movable part of the robot model is moved to the second position, any axis constituting the robot model is rotated 180°±a first prescribed value from a rotation angle serving as a reference; and an arm inversion correction unit that, when occurrence of the prescribed state has been detected for any axis constituting the robot model, corrects the posture of the robot model when the prescribed movable part is in the second position so that said axis is not in the prescribed state.

Disclosed are various embodiments of a three-dimensional perception and object manipulation robot gripper configured for connection to and operation in conjunction with a robot arm. In some embodiments, the gripper comprises a palm, a plurality of motors or actuators operably connected to the palm, a mechanical manipulation system operably connected to the palm, a plurality of fingers operably connected to the motors or actuators and configured to manipulate one or more objects located within a workspace or target volume that can be accessed by the fingers. A depth camera system is also operably connected to the palm. One or more computing devices are operably connected to the depth camera and are configured and programmed to process images provided by the depth camera system to determine the location and orientation of the one or more objects within a workspace, and in accordance therewith, provide as outputs therefrom control signals or instructions configured to be employed by the motors or actuators to control movement and operation of the plurality of fingers so as to permit the fingers to manipulate the one or more objects located within the workspace or target volume. The gripper can also be configured to vary controllably at least one of a force, a torque, a stiffness, and a compliance applied by one or more of the plurality of fingers to the one or more objects.

Provided is a programming device capable of reducing the load of an operator that creates a control program including a command corresponding to a function of an imaging device. Provided is a programming device for programming industrial machinery, the programming device including: a command generation unit that acquires information regarding an imaging device connected to a control device of the industrial machinery and that, on the basis of the acquired information, generates an icon or command statement expressing a command using an image acquired by the imaging device; and a command display unit that displays the generated icon or command statement on a display screen.

An information processing apparatus including a display unit configured to display a state of a robot system based on first data is characterized in that at least one element of the robot system based on the first data can be outputted with second data that is different from the first data.

A program creation apparatus acquires a work sequence executed by a robot, and creates a motion program based on the work sequence and a work information file in which information on work contained in the work sequence is recorded. Further, the work sequence is corrected from the work information file, and a new motion program based on a corrected new work sequence is created.

A program creation apparatus acquires a work sequence executed by a robot, and creates a robot motion program containing a motion program based on the work sequence, an execution mode that can be enabled or disabled, and a command to switch to enable or disable the execution mode.

A control device includes a processor. The processor displays a first image of a robot, first input/output images representing a robot input/output, a second image of a peripheral device, second input/output images representing a device input/output, and an input/output edit screen accepting an input/output relationship between the robot output and a peripheral device input on a display. Each of the robot output and the peripheral device input causes the robot and the peripheral device to perform a synchronous operation or an asynchronous operation that is synchronously or asynchronously performed between the robot and the peripheral device, respectively. When one of the first input/output images corresponds to the synchronous operation, one of the second input/output images corresponds to only the synchronous operation. When another of the first input/output images corresponds to the asynchronous operation, another of the second input/output images corresponds to only the asynchronous operation.

A control device includes: a processor that is configured to execute computer-executable instructions so as to control a robot, wherein the processor is configured to: display a first edit screen on which an operation sequence of the robot can be edited by selecting images representing one or more operations among images representing a plurality of operations and arranging the images on a screen, and a second edit screen on which the operation sequence expressed in a programming language, which is obtained by converting the operation sequence edited via the first edit screen is displayed and the operation sequence expressed in the programming language can be edited, on a display; and control the robot based on the operation sequence edited via at least one of the first edit screen and the second edit screen.

A control device includes: a storage unit storing a work program of a robot; a display control unit displaying a virtual robot formed by virtualizing the robot and a teaching point in a simulator screen at a display unit, based on the work program stored in the storage unit; and an accepting unit accepting a selection of the teaching point displayed in the simulator screen. The display control unit displays, in the simulator screen, a first window including a first command corresponding to the selected teaching point, when the accepting unit accepts the selection of the teaching point.

A method, apparatus, and computer-readable storage media for robotic programming are disclosed. To improve upon or even solve the dilemma that teach-in techniques cannot work for all kinds of objects and offline programming requires complicated simulation of a robot and objects, a solution is provided to use a virtual item marked by a marker during programming of the robot and display the virtual item to a user. As such, even very large items can be used and also replaced easily during programming, which makes the programming procedures go smoothly and efficiently.