To make it possible to operate a conveyor installation (1) in the form of a long stator linear motor in a simple manner, a first trigger point (Tx) is defined in at least one first position (Px) on the conveying track (2) and a first program code (Fx) which can be executed in the system controller (6) and with which a transport unit (TEn) is moved along a track section of the conveying track (2) in accordance with a defined movement profile is assigned to the first trigger point (Tx), and this program code (Fx) is executed for each transport unit (TEn) that reaches the first trigger point (Tx).

A workpiece simulation part estimates the amount of movement of the workpiece from drive information and estimates the current position of the workpiece by adding the amount of movement to the previous position of the workpiece, the drive information being generated for, among at least one actuator, an actuator that is assumed to constrain the workpiece under the constraint conditions. A sensor simulation part uses the current position of the workpiece to generate sensor simulation information. An input/output switching part transmits the drive information to the workpiece simulation part and transmits the sensor simulation information as alternate information of the sensor information to the control-program execution part.

Techniques for providing an entity monitoring safety feature in an inventory management system may be described. For example, information that indicates respective locations for a plurality of mobile drive units within an inventory management system may be received. Tracking information may be received from a mobile location unit that is moving within a bounded area around a signal transmitter that is coupled to an entity. The tracking information may include an approximate location of the signal transmitter relative to the mobile location unit. Pathway information may be generated that indicates to the plurality of mobile drive units within the inventory management system to stay outside of a radius distance of the mobile location unit based on the received tracking information. The generated pathway information may be provided to the plurality of mobile drive units to enable safe passage for the entity within the inventory management system.

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.

A robot system includes a holding compartment configured to transport one or more items and an electronic control unit having a processor and a non-transitory computer readable memory including a machine-readable instruction set. The robot system further includes a camera for capturing image data of an environment of the holding compartment and a robotic arm each communicatively coupled to the electronic control unit. The machine-readable instruction set causes the processor to receive image data of the environment of the holding compartment from the camera, determine a set of handling instructions for an item collected by the robotic arm, determine a location within the holding compartment for placing the item collected by the robotic arm based on the image data of the environment of the holding compartment and the set of handling instructions, and manipulate the robotic arm to place the item within the holding compartment at the determined location.

A technique is described that provides efficient production management of a substrate processing system that includes a substrate processing apparatus and a mobile terminal. The substrate processing apparatus includes: at least one reactor where a substrate is processed; a transfer chamber adjacent to at least one reactor; a detector that detects a state of at least one reactor, a state of the transfer chamber, and generates monitored apparatus information representing the state of at least one reactor, and the state of the transfer chamber. A mobile terminal is authenticated based on information transmitted from the mobile terminal; a first transceiver transmits apparatus information that contains an apparatus management number and monitored apparatus information to the mobile terminal, and wherein the mobile terminal includes: a second transceiver that receives the apparatus information transmitted from the first transceiver; and a display device that displays the apparatus information received by the second transceiver.

An assembly consisting of a control member which comprises a carrier, an operating part movably supported on the carrier, an electromagnetic actuator comprising an armature and a coil for driving the operating part movingly relative to the carrier is provided. The assembly further comprises an electronic control system connected in an electrically conductive manner with the electromagnetic actuator for applying a control voltage to the electromagnetic actuator for a predetermined control period in a control step in order to generate a haptic feedback; a measuring circuit connected in an electrically conductive manner to the electromagnetic actuator for measuring a current present at the electromagnetic actor and for generating a measuring signal proportional thereto; and an evaluation unit connected in an electrically conductive manner at least to the measuring circuit and designed, in a measuring step offset in time relative to the control step, to apply a measuring voltage to the electromagnetic actuator by the electronic control system for a predetermined test period shorter than the control period, in order to measure by the measuring circuit the current which arises at the electromagnetic actuator as the test period elapses due to the application of the measuring voltage and to generate a measuring signal proportional thereto, and in order to obtain a characteristic value of the actuator based on the measuring signal.

The simulation reflects the actual behavior of a target in an application involving a target near a transporting surface of a carrier instead of being placed directly on the transporting surface. A simulator includes a creating unit that virtually creates a system in a three-dimensional virtual space, a tracking unit that updates positions of targets on the transporting surface in the three-dimensional virtual space based on a corresponding movement of the carrier, and updates a position of a target picked up by the processing device in association with a behavior of the processing device, and an instruction generation unit that generates a control instruction for the behavior of the processing device based on the position of each target. When the processing device places a target within a predetermined range from the transporting surface, the tracking unit associates the target with the transporting surface and updates a position of the target.

A conveyor controller for being implemented into a conveyor system includes control circuitry and one or more network interfaces for coupling with other conveyor controllers. In one embodiment, the control circuitry configured for detecting whether another conveyor controller is connected and to determine which network interface is used in order to set the direction of the conveyor system. In another embodiment, the control circuitry is configured, to receive configuration data from a conveyor controller connected to a network interface, and to detect if another conveyor controller is and to transmit configuration message to another conveyor controller that includes additional configuration data associated with the conveyor controller. In still another embodiment, the control circuitry transmits configuration data to a replacement conveyor controller upon getting a request from the replacement conveyor controller that has been connected to a network interface.

The invention relates to a handling system for a filling system for filling containers and circuits of vehicles with different operating materials on assembly lines of the automobile industry, wherein the filling system comprises, as its essential structural components, a base unit, a controller, a console, and an adapter, wherein the adapter is operatively connected to multiple hoses for supplying the respective operating materials, which hoses are structurally combined in a hose packet and movably supported on the console. It is the problem of the invention to provide a technical solution in this respect for handling the hose packets, which are operated using a medium other than a pneumatic system. The aim of the invention is to provide a technical solution for handling the hose packets which are operated with a medium other than a pneumatic system. Said aim is achieved in that the drive of the movable hose packets and the drive system of a lifting unit equipped with a tray for the adapter are each designed as an electromotive drive. The invention further relates to modifications of the control behavior of the sequences of movement of adapter and lifting unit.