A sheet material machining system includes a sheet material machining machine which is configured to machine a workpiece to produce a machined workpiece that includes a plurality of products and a residual material. The machined workpiece is configured to be placed on a sorting table. The plurality of products are configured to be placed on a temporary placement table. At least one product among the plurality of products are configured to be placed on a discharge table. A carrier includes an attracting actuator and a mobile actuator. The order management processor is configured to control the carrier and includes a storage configured to memorize a layout of the plurality of products in the workpiece. The plurality of products are associated with an attracting order.

Systems and methods for allocating computing environments for completing an RPA (robotic process automation) workload are provided. A request for completing an RPA workload is received. A number of computing environments to allocate for completing the RPA workload is calculated based on a selected one of a plurality of RPA autoscaling strategies. The calculated number of computing environments is allocated for allocating one or more RPA robots to complete the RPA workload. The computing environments may be virtual machines.

Learning related to a device having a driving unit is performed more easily. An information processing device includes: a storage unit that stores a machining program for operating a motor of a machine tool, a robot, or an industrial machine; and a generation unit that generates a learning program for performing learning based on operating characteristics of the motor by extracting a partial machining program including a characteristic element from the machining program stored in the storage unit.

The disclosure is directed at a method and system for diagnosing automation elements. The method and system include the determination of a trigger condition or event within operation data received from the automation elements. Based on the trigger condition or event, feed-back data captured by data collection devices is tagged and stored and/or captured and stored for review by an end user. The feed-back data may be stored together with associated operation data to assist in identifying faults, the causes of faults, or the like in the automation elements, in the products produced, or in the manufacturing process or overall manufacturing system.

An integrated simulation system includes a first simulation device which executes a simulation of a first program, a second simulation device which executes a simulation of a second program, a start timing setting section which sets start timing for the correlated first program and second program so as to verify the presence or absence of malfunctions caused by a start order of the correlated first program and second program, and a program starting section which issues commands to the first simulation device and the second simulation device to start the correlated first program and second program at the set start timing by a single starting operation.

In a facility operation analysis device configured to continuously grasp the extent of change (the amount of change) over time of actuators constituting a manufacturing facility, when displaying a result of evaluation on a display device, an evaluating portion compares a measured amount of change with thresholds of the amount of change that are set within a normal range where the manufacturing facility is not stopped, and displays the result of evaluation in which the measured amount of change is ranked.

A combined system having a function for rapidly detecting and correcting a positional misalignment between a machine tool and a robot. The combined system includes: a machine tool having a table and a workpiece fixing jig integrally movable with the table; a robot system separated from the machine tool and having a robot configured to supply or take out a workpiece to or from the jig; a network for information transmission between the machine tool and the robot; an interference judging part which judges occurrence of interference, based on a disturbance value of each axis of the robot, when the workpiece is supplied to or taken out from the jig; and an interference avoiding part which, when it is judged that the interference occurs, stops a motion of the robot and moves the table in a direction of at least one axis based on the disturbance value.

On the basis of a numerical control program for controlling the motion of a machine tool 2, a motion-path generation device 55 generates a motion path concerning control axes of a robot 3 provided in proximity to the machine tool 2. The motion-path generation device 55 comprises: a model update unit 57 that acquires start coordinate values on the control axes and current tool coordinate values of the machine tool 2 and updates a robot system model on the basis of these coordinate values, the robot system model being configured by disposing three-dimensional models of the robot 3, the machine tool 2, and objects in the vicinity of the machine tool 2 in a virtual space; an interference-avoiding-path generation unit 56 that generates a target motion path starting from the start coordinate values and arriving at end coordinate values on the control axes, the end coordinate values being specified on the basis of the numerical control program, while avoiding interference in the robot system model; and a data transmission/reception unit 59 that transmits an instruction including the target motion path to a robot control device 6.

Provided is a method for controlling a robot including plural articulated shafts capable of moving a workpiece in a same direction while supporting the workpiece. In moving the workpiece by the robot, the method controls each of the articulated shafts in such a way that an interference torque caused by acceleration or deceleration of one articulated shaft and acting on another articulated shaft and a torque for accelerating or decelerating the other articulated shaft do not act in opposite directions simultaneously.

A machining system which includes a plurality of machine tools each having an independent operation part and controller, and shared peripheral equipment associated with all of the plurality of machine tools, includes a shared controller for the shared peripheral equipment which is operable by each of the operation parts of the plurality of machine tools, wherein the shared controller includes an authorization part for granting operation authority to one of the operation parts of the plurality of the machine tools.