The invention relates to a method and a robot (5) and/or robot controller (17) for validation of programmed workflow sequences and/or teaching programs (20) of the robot (5) in a work cell (2), wherein the robot (5) is preferably mounted on or next to a processing machine, in particular an injection molding machine (4), and designed for the extraction, handling, manipulation or further processing of injection-molded parts (3) which have just been produced. The robot controller (17) is designed to reproduce a virtual twin or robot model (21), respectively, in particular a virtual representation of the plant or work cell (2), respectively, at the output location, in particular a display or touch screen (16), whereby at least the injection molding machine is represented as part of the work cell, and further production resources of the plant or work cell (2), which are preferably automatically detected and represented.

An information processing apparatus includes a display controller configured to output display information to be displayed on a display apparatus, and an analysis unit. The display apparatus includes an operation display area displaying an operation of a robotic system based on robot control data and an information display area displaying information related to an operation parameter of the robotic system in a time-series manner based on the robot control data. The analysis unit is configured to analyze the operation parameter to specify a warning event. The display controller displays the wanting event specified by the analysis unit in the operation display area and the information display area in association with each other.

A path generating device is configured to generate a path for a robot formed by connecting a plurality of units that are each bendable to have a desired single curvature, and the path generating device includes: an analysis unit configured to output position posture information indicating a position and a posture of the robot corresponding to an operation amount, using a robot model with which the position and the posture are able to be simulated in a virtual space; a generating unit configured to generate a path extending from a predetermined entry position to a target position in the virtual space; and a specification unit configured to specify an operation amount for making the robot model advance along the path, while making a position of a connection portion of each of the units of the robot model match the path.

Methods and systems for testing robotic systems in an environment blending both physical and virtual test environments are presented herein. A realistic, three dimensional physical environment for testing and evaluating a robotic system is augmented with simulated, virtual elements. In this manner, robotic systems, humans, and other machines dynamically interact with both real and virtual elements. In one aspect, a model of a physical test environment and a model of a virtual test environment are combined, and signals indicative of a state of the combined model are employed to control a robotic system. In a further aspect, a mobile robot present in a physical test environment is commanded to emulate movements of a virtual robot under control. In another further aspect, images of the virtual robot under control are projected onto the physical test environment to provide a visual representation of the presence and action taken by the virtual robot.

A press working simulator according to an aspect of the present disclosure includes: a robot program storage section that stores a robot program that instructs a robot how to move; a press program storage section that stores a press program that instructs a press machine how to move; a profile data setting section that causes the press program storage section to store a press program according to profile data that records what position a die is in at each time point when the press machine is actually moved; a model placing section that places three-dimensional models of a workpiece, the robot, and the press machine in a virtual space; a press movement processing section that causes the three-dimensional model of the press machine to move according to the press program; and a robot movement processing section that causes the three-dimensional model of the robot to move according to the robot program.

A robot programming system according to an aspect of the present disclosure includes: a robot program storage section; a press program storage section; a template program setting section that causes the robot program storage section to store, as an initial version of a robot program, a template program that instructs a robot how to move basically; a model placing section that places three-dimensional models of a workpiece, the robot, and a press machine in a virtual space; a robot movement processing section that causes the three-dimensional model of the robot to move; a press movement processing section that causes the three-dimensional model of the press machine to move; an interference detection section that detects interference between the three-dimensional models; and a robot program modification section that modifies a robot program stored in the robot program storage section to prevent interference detected by the interference detection section.

A transfer method transfers a substrate between a transfer unit configured to hold and transfer the substrate and a substrate stage serving as a transfer destination or a transfer source of the substrate. The transfer method includes: acquiring positional information of the transfer unit and positional information of the substrate stage; determining whether or not there is a risk for the substrate to contact with the substrate stage, based on the acquired positional information of the transfer unit and positional information of the substrate stage; and when determined that there is a risk for the substrate to contact with the substrate stage, notifying the risk according to the determination at the determining.

A robot system includes a robot configured to operate in cooperation with a person, a specifying section configured to specify a person present in a region at a predetermined distance from the robot, and a control section configured to decelerate or stop the operation of the robot when the presence of the person in the region is specified by the specifying section. The control section changes the distance based on a result of specifying the person by the specifying section.

An information processing apparatus includes a display controller configured to output display information to be displayed on a display apparatus, and an analysis unit. The display apparatus includes an operation display area displaying an operation of a robotic system based on robot control data and an information display area displaying information related to an operation parameter of the robotic system in a time-series manner based on the robot control data. The analysis unit is configured to analyze the operation parameter to specify a warning event. The display controller displays the wanting event specified by the analysis unit in the operation display area and the information display area in association with each other.

A robot system includes a robot, a teach pendant having an operator interface, and a robot controller with a computer and associated hardware and software containing a virtual representation of the robot and the environment. The system employs a method for avoiding collisions including moving a manipulator arm along an actual path in an environment containing objects constituting collision geometry. Operator input is entered into the teach pendant, whereby the operator is able to directly control motion of the robot along the actual path. A recent history of the motion of the robot is recorded, and a predicted path of the robot is developed based on the input entered into the teach pendant and the recent history of the motion of the robot. Real-time collision checking between the predicted path and the collision geometry is performed while the operator manually controls the robot using the teach pendant.