System and method for monitoring system parameters from multiple independent controllers that monitor and control an injection process is a plurality of IMSs, including: establishing a common graphical user interface (common GUI) for viewing system parameters of a tool based injection molding system (IMS), the IMS including a plurality of different local controllers that control different tool based system functions of the IMS and one common graphical user interface (local GUI) with GUI routines specific to the local controllers for set up and monitoring of the respective tool based system function of the respective local controllers.

A method, performed by at least one processor, comprising generating a first set of images representative of configuration data associated with an industrial automation system. An electronic display may display at least one image of the first set of images. The processor may detect a change in the configuration data and retrieve updated configuration data from the industrial automation system. The processor may encode the updated configuration data into a second set of images and display at least one additional image of the second set of images on the electronic display.

A control panel for a machine tool has a housing (1). The housing comprises a housing base part (2) and a housing front part (3). A display (19) and a control element panel (20, 21) are attached to the front part of the housing. In the region of the housing bottom side, the housing front part is connected to the housing base part by miter hinges so that it can be swiveled to provide access to the interior of the housing. Fold-out supports (13) make it possible to use an alphanumeric keyboard (15) for maintenance work. Indentations (5) on both sides of the housing rear allow the housing to be easily grasped. Control elements (18) are arranged in the indentations.

The invention relates to a human machine interface (1) for simultaneously and interactively controlling a control function of a machine (3). The human machine interface (1) comprises a control input unit (5) by means of which a control parameter of a control function of the machine (3) can be simultaneously manually operated in accordance with a parameter input (27), a parameter input unit (7) which can be controlled independently from the control input device (5) and which enables a control parameter of the control function to be manually controlled, and a parameter display unit (9) arranged together with the parameter input unit (7) and which enables feedback of the control parameter to be manually controlled. As a result, the intuitive ease of operation, the security and ergonomics are improved such that a control parameter of the control function dependent on the control function can be manually controlled simultaneously by means of the control input unit (5) and that the parameter display unit (9) enables information relating to the desired value or an actual value of the manually controlled parameter and which is present on the machine (3) can be fed back.

A staged application may be transitioned, or hot swapped, to live application, that is, the staged version of an application is transited to the live version of an application. The staged version may nm in estimation mode alongside the live version. Only one version of an application may be active in a given run time workspace. The staged version may be initialized with one or more parameters or variables. The staged version may be tested or simulations may be performed to ensure the staged version is ready to be transitioned to a live version. The staged version may execute at a lower priority to ensure that the efficiency and operations of the live version are not disturbed. Once the staged version has been transitioned, the replaced live version or another version may be transitioned to the staged version. The transitioned staged version and the replaced live version may be archived.

Method and an arrangement for monitoring status of a production device configured to implement an industrial process or industrial production with a control device with sensors and actuators, where at least one further sensor is carried through the production device with a product being processed by the production device, where further signals are wirelessly transmitted to a status-monitoring device by the further sensor, and where the signals and/or status information items and the further signals are placeable in relationship with one another to generate status information item about the production device such that it is possible to plan the status monitoring separately from the production device, and possible to combine information items of the industrial control device with the information items and data of a mobile sensor (further sensor) that passes through the production device, such that more precise status information items about the production device status can be acquired.

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.

Systems and methods for human-machine interaction. An adaptive behavioral control system of a human-machine interaction system controls an interaction sub-system to perform a plurality of actions for a first action type in accordance with a computer-behavioral policy, each action being a different alternative action for the action type. The adaptive behavioral control system detects a human reaction of an interaction participant to the performance of each action of the first action type from data received from a human reaction detection sub-system. The adaptive behavioral control system stores information indicating each detected human reaction in association with information identifying the associated action. In a case where stored information indicating detected human reactions for the first action type satisfy an update condition, the adaptive behavioral control system updates the computer-behavioral policy for the first action type.

The present invention relates to an operating module for dynamically creating the user interface on the operating module for controlling and operating a machine of the food industry, in particular the beverage industry. The operating module comprises a plurality of operating elements having attributes, which can assume the value of a parameter and can be activated or deactivated depending on the user. By means of an operating module context, operating elements having certain attributes and values can be selected in order to be displayed on the operating module. The invention further relates to a method for dynamically creating and displaying an operating interface for operating a machine of the food industry.

Systems and methods for human-machine interaction. An adaptive behavioral control system of a human-machine interaction system controls an interaction sub-system to perform a plurality of actions for a first action type in accordance with a computer-behavioral policy, each action being a different alternative action for the action type. The adaptive behavioral control system detects a human reaction of an interaction participant to the performance of each action of the first action type from data received from a human reaction detection sub-system. The adaptive behavioral control system stores information indicating each detected human reaction in association with information identifying the associated action. In a case where stored information indicating detected human reactions for the first action type satisfy an update condition, the adaptive behavioral control system updates the computer-behavioral policy for the first action type.