The present invention relates to a computer implemented system configured for controlling and monitoring of a pump, the system comprising a pump system, at least one sensor providing an operating state data signal representative of a mechanical, fluidicly, electrical operating state and/or other system data of the pump and/or pump system and a control module controlling the mechanical, fluidicly and/or operating state of the pump in response to a received control signal. The invention also comprises a digital twin module being configured for retrieving said operating state data signal and store the data in the IoT database.

According to one aspect of a technique the present disclosure, there is provided a processing apparatus including: an apparatus controller including a memory storing apparatus data containing monitor data containing sensor information and an alarm indicating a failure detected based on the sensor information and an alarm analysis table containing analysis items. The apparatus controller is capable of outputting the alarm containing an alarm ID for specifying a type and an occurrence time of the alarm; specifying candidates of the analysis items from the alarm ID; acquiring monitor data corresponding to the candidates; determining a rank of the cause of the alarm according to a difference between monitor data at the occurrence time and a predetermined threshold value; and displaying a relationship between the monitor data and the threshold value. The display screen displays an occurrence history of the alarm and history of acquiring the monitor data.

A method includes obtaining data associated with operation of a model-based industrial process controller. The method also includes identifying at least one estimated impact of at least one operational problem of the industrial process controller, where each estimated impact is expressed in terms of a lost opportunity associated with operation of the industrial process controller. The method further includes presenting the at least one estimated impact to a user. The at least one estimated impact could include impacts associated with noise or variance in process variables used by the industrial process controller, misconfiguration of an optimizer in the industrial process controller, one or more limits on one or more process variables, a quality of at least one model used by the industrial process controller, a quality of one or more inferred properties used by the industrial process controller, or one or more process variables being dropped from use by the industrial process controller.

Graphical user interface (GUI) based systems and methods are disclosed for regionizing full-size process plant displays for rendering on mobile user interface devices. A regionizer application receives a full-size process plant display that graphically represents at least a portion of a process plant that includes graphic representations of a plurality of process plant entities. The regionizer app determines display region(s) of the full-size process plant display that define corresponding view portions of the full-size process plant display. The display regions are transmitted to a mobile user interface device for rendering by a mobile display navigation app. The GUI based systems and methods can also automatically detect graphical process control loop display portions within full-size process plant displays for rendering on mobile user interface devices. The GUI based systems and methods can further refactor full-size process plant displays at various zoom and detail levels for visualization on mobile user interface devices.

Graphical user interface (GUI) based systems and methods are disclosed for regionizing full-size process plant displays for rendering on mobile user interface devices. A regionizer application receives a full-size process plant display that graphically represents at least a portion of a process plant that includes graphic representations of a plurality of process plant entities. The regionizer app determines display region(s) of the full-size process plant display that define corresponding view portions of the full-size process plant display. The display regions are transmitted to a mobile user interface device for rendering by a mobile display navigation app. The GUI based systems and methods can also automatically detect graphical process control loop display portions within full-size process plant displays for rendering on mobile user interface devices. The GUI based systems and methods can further refactor full-size process plant displays at various zoom and detail levels for visualization on mobile user interface devices.

A data processing apparatus includes a processor. The processor generates visualization data for displaying estimation results of manufacturing conditions based on estimation results and relationship data. The relationship data includes first relationship data as a relationship between first manufacturing conditions recorded during an analysis, and second relationship data as a relationship between second manufacturing conditions corresponding. The processor divides the estimation results of the manufacturing conditions into a first group based on the first relationship data, and into a second group based on the second relationship data. The processor generates the visualization data based on a change in manufacturing condition relationship between the first group and the second group.

An automated system for identifying a watering zone malfunction includes a sensor and a controller. The watering zone includes a valve that couples an input conduit to an output conduit. The output conduit terminates at one or more water distributors. The sensor is for capturing mechanical perturbations of the watering zone. The controller is configured to: store a profile defining at least one profile parameter based upon a transient operation of the zone in an intact state, receive the signal from the sensor during a watering operation when the zone is in an unknown state, compute a operation parameter based upon the signal for at least one time window of receiving the signal, determining a malfunction exists, and determine whether to take further action based upon the comparison.

There is provided a method and system for monitoring an asset. For example, there is provided a method that includes executing, by a system configured to monitor the asset, a series of operations that can include fetching, from a database communicatively coupled to the system, a data structure including information relative to one or more sources containing event data relative to the asset. The method may include generating, from the data structure, a first table including a list of sources. The method may include generating, from the data structure, a second table including a list of unique consolidated events. The method may include generating, based on a set of predetermined rules, a mapping table configured to relate the first table and the second table. The method may include associating, based on the mapping table, an event in the second table to the one or more sources in the first table.

An information processing method includes causing an information processing apparatus to display a first image on which a plurality of pieces of partial time-series data of a physical quantity regarding a state of a mechanical apparatus are displayed, causing the information processing apparatus to display a second image on which the plurality of pieces of partial time-series data are displayed at intervals different from intervals at which the plurality of pieces of partial time-series data are displayed on the first image, and causing the information processing apparatus to display a first mark marking first partial time-series data that is predetermined one of the plurality of pieces of partial time-series data displayed on the first image and a second mark marking second partial time-series data that is one of the plurality of pieces of partial time-series data displayed on the second image and that corresponds to the first partial time-series data.

A test procedure system comprising a test component test procedure corresponding to test instructions, a computer model system comprising a test component computer model comprising inspection indicia therein, a head mounted display comprising an alignment system, aligning the test component within a field of view with the computer model to align the inspection indicia and a user interface associated with the head mounted display for entering test results.