A control system controls an industrial machine, and each of controllers includes a screen generation unit which generates a controller screen that is displayed on a controller display unit and which generates a glasses screen that is displayed on s glasses-type display device based on a variation in an internal state of the controller screen and the glasses-type display device includes: a transmissive glasses display unit which is arranged so as to correspond to the positions of the eyes of a wearer and which can display the generated glasses screen; a glasses side transmission/reception unit which acquires specific information for specifying the controller that is connected; and a display control unit which displays the glasses screen and the specific information on the glasses display unit.

This technology enables a receipt of a plurality of readings from a sensor monitoring a piece of equipment in a building. The receipt enables an identification of a present fault or a projected fault in the piece of equipment. The identification enables a generation of an augmented reality content related to the present fault or the projected fault. The augmented reality content is sent to a mobile device when the mobile device is in proximity of the piece of equipment.

An industrial virtual reality (VR) system includes visualization processing capabilities that allow an augmented reality (AR) human-machine interface (HMI) application to be tested within a virtual representation of the plant environment. This approach can yield an interactable AR HMI that simulates, within the VR environment, what a wearer of an AR appliance will see while traversing the physical plant. In this way, proper operation of the AR HMI can be verified prior to commissioning of the physical system. This can include ensuring that graphics are tied to the correct data points, confirming correct and non-obtrusive locations of graphics within the user's field of view.

An operation system for industrial machinery comprises: an information acquisition unit which acquires machine identification information corresponding to an industrial machine; a machine identification unit which identifies the industrial machine on the basis of the acquired machine identification information; a model projection unit which projects a model corresponding to the identified industrial machine into a virtual space; a distance/direction calculation unit which calculates the distance and direction, of a user observing the model, with respect to the projected model; a gesture observation unit which observes the gesture of the user as an instruction from the user to the identified industrial machine; an instruction determination unit which determines whether or not a user can give an instruction; and an operation instruction unit which operates the identified industrial machine on the basis of the observed gesture of the user, when the determination result is positive.

The present invention provides a measurement program selection assisting apparatus capable of visually confirming whether a selected measurement program is suitable for an object to be measured. One aspect of the present invention is a measurement program selection assisting apparatus comprising: a measurement program database storing a measurement program related to measurement of an object and superimposed display information corresponding to a three-dimensional shape of the object in association with each other; a display unit capable of displaying information defined in a virtual space superimposed on the real space; and a display control unit for acquiring the superimposed display information corresponding to a selected measurement program from the measurement program database and displaying the acquired superimposed display information in a mixed reality on the display unit.

A simulation system comprising: a plurality of physical components, each corresponding to one of a plurality of physical component types, an attachment panel comprising an arrangement of attachment locations, such that one or more of the physical components are attachable to the attachment panel; a display system configured to provide a visualisation on or proximate one or both of the attachment panel and the plurality of physical components; a capture device configured to capture image data of a current status of the attachment panel and the plurality of physical components; and a controller, when at least one physical component is coupled to the attachment panel.

A method of calculating and outputting pressure information about the status of an actual pressure of a gas bottle of a door damper at 200 C, performed on a smart device. The method includes receiving, from a non-compensated pressure gauge, a pressure input indicating an actual pressure of said gas bottle of said door damper at ambient temperature, receiving a temperature input indicating an actual temperature of said gas bottle of said door damper, and using said inputs to calculate and convert said actual pressure of said gas bottle of said door damper at ambient temperature to a pressure at a temperature of 200 C, and further comprising outputting pressure information about the status of the gas bottle of said door damper based on said converted pressure at 200 C.

A method for operating a monitoring unit (100), configured to monitor a manipulation of at least one object (40, 45) by a user, the method comprising: —receiving, via a cellular network (60), actual user position data comprising an actual position of at least one portion of user used to manipulate the at least one object, and actual object position data comprising an actual position of the at least one object, —matching the actual user position data to predefined user position data provided at the monitoring unit (100), the predefined user position data indicating a correct position of the at least one portion of the user for manipulating the at least one object, and matching the actual object position data to predefined object position data provided at the monitoring unit, the predefined object position data indicating a correct position of the at least one object, —determining, based on the matching, whether the manipulation of the at least one object by the at least one portion of the user is correct or not.

Aiming systems are provided for use with a particle projection device. Such aiming systems may have a housing mountable to the particle projection device for movement therewith, a window defining a field of view when in a first orientation and a second field of view when in a second orientation. A first reticle image is visible in the window when the housing and particle projection device are at the first orientation with the first reticle image representative of a projection path of the particles in the first field of view. A second reticle image is visible in the window when the housing and particle projection device are at the second orientation with the second reticle image being representative of a projection path of the particles in the second field of view.

A tangible, non-transitory, computer-readable medium includes instructions that, when executed by processing circuitry, are configured to cause the processing circuitry to receive sensory datasets associated with an industrial automation system, determine context information based on a sensory dataset and representative of an environmental condition, predict an intent of a user to complete a task associated with the industrial automation system based on the sensory datasets and the context information, present first output representative data via an extended reality device based on the intent and a setting, the setting including a data presentation format for presenting the sensory datasets, receive inputs indicative of changes to the data presentation format, present second output representative data via the extended reality device in response to receiving the inputs, and update the setting based on the inputs and historical data indicative of users changing the data presentation format of the first output representative data.