Operational facets of a compressor are controlled from a remotely-located computer. Data from the compressor is automatically collected at a first data store every first time increment of a first time period. Portions of the data from the first data store are automatically collected at a second data store every second time increment of each first time period. The second time increment is greater than the first time increment, and the portions of the data are collected for a second time period which is greater than the first time period. Successful verification of user authentication data collected at the computer causes automatic generation of an image of application icons at the computer to enable the computer as an input device for controlling the compressor and selections of routines available at an analytics visualization generator that uses data from the second data store.

A first graph display processing unit displays, on a first graph, a temporal variation of first process data accumulated in a process data storage unit. A second graph display processing unit displays, on a second graph, a temporal variation of second process data accumulated in the process data storage unit, and moves a time range of the data displayed on the second graph in accordance with a change of the time pointed to by a second time cursor on the second graph. A time coordination unit stores the time Ta pointed to by a first time cursor and changes the time pointed to by the second time cursor to time Ta, and thereby causes second process data of the same time as that of the first process data displayed on the first graph to be displayed on the second graph.

There is provided a packet monitoring apparatus for monitoring packets copied from an industrial control system (ICS) network, the apparatus being configured to perform an analysis of a plurality of packets copied from the ICS network and generate a digital command signal responsive to the analysis for transmission via a digital input/output channel. There is also provided an active prove that is configured to generate and transmit at least one query packet into the ICS network responsive to a digital command signal, optionally received from the packet monitoring apparatus.

An asset monitoring and reporting system (AMRS) implements an interface to establish an asset hierarchy to be monitored and reported against. The interface employs a search query of extant asset data from which definitional aspects of the asset hierarchy can be identified, and therefrom the interface automatically determines control information reflective of the asset hierarchy to direct the ongoing operation of the AMRS. The interface further allows for configuration of a metric definition for a metric of an asset node of the asset hierarchy, the metric representing a point in time or a period of time and derived from a metric-time search of machine data produced by or about the asset node and receives an identification of a metric determination specification for the metric definition, the metric determination specification comprising at least identification of a metric component and identification of a calculation operation to apply to the metric component.

The present disclosure provides a server device in a supervisory control and data acquisition system, wherein the system includes multiples client devices and the server device, wherein the server device comprises: a communication module to communicate with the multiple client devices; and a data service module configured: when a first client device has registered a requirement for processing data, to allocate a task for processing the data based on the requirement; and/or when a second client device subscribes to the requirement, to control the communication module to publish the requirement to the second client device; to process the data using the task; and to control the communication module to send the processed data to the first and/or second devices.

Described is a method and device of a computational motion engine iteratively computing a numerical jerk, the motion derivative of acceleration, using real-time feedback from a system under motion control, to reach both a desired position and desired velocity of a next waypoint. Output from the motion engine is only desired acceleration, which is then passed to a motor driver, free of intermediate computations of either position or velocity. A second, inside feedback loop maintains desired acceleration or torque at the motor shaft based on the acceleration output of the motion engine, which may use non-linear correction tables. Waypoints comprising both position and velocity are inputs to the motion engine. Time to next waypoint is computed rather than provided as an input. Optimization of moves to the next waypoint is based on smoothest velocity change during the move. Embodiments include mechanical, two-axis SCARA arm motion systems.

Embodiments of the invention include a system and method capable of generating an operations management interface enabling monitoring of distributed components of a process control application. The operations management interface can include a customizable display enabling operators to prepare decisions based on a context-based three-dimensional representation of the distributed components. The operations management interface display includes controls for manipulating graphically displayed representations of data rendered by the distributed components, and an interface for exchanging requests and data through data links to one or more distributed data-linked components. Some selectable displayed information in the operations management interface window can include locations, interconnection layout and hierarchy, and specifications, and datasheets of distributed components.

The present application relates to the technical field of industrial data processing, and in particular relates to a field data processing method, apparatus and system, which are used to realize the timely processing of field data. In the embodiments of the present application, a field data processing apparatus located on an industrial site of an industrial system receives field data from at least a field apparatus on the industrial site, and processes the received field data and provides the processing result of the field data. In this way, untimely processing of field data can be avoided.

Provided is a system for monitoring and controlling an adaptive cyberphysical system consisting of or comprising one or more system components, in which an engineering system is connected to a monitoring and supervision module (that is designed or configured to receive and to process data from the system components and to forward the processed data and information generated therefrom to the engineering system, wherein the engineering system is designed or configured to update management technology images in a management and control system on the basis of the data received from the monitoring and supervision module.

An asset monitoring and reporting system (AMRS) implements an interface to establish an asset hierarchy to be monitored and reported against. The interface employs a search query of extant asset data from which definitional aspects of the asset hierarchy can be identified, and therefrom the interface automatically determines control information reflective of the asset hierarchy to direct the ongoing operation of the AMRS. The interface further allows for configuration of a metric definition for a metric of an asset node of the asset hierarchy, the metric representing a point in time or a period of time and derived from a metric-time search of machine data produced by or about the asset node and receives an identification of a metric determination specification for the metric definition, the metric determination specification comprising at least identification of a metric component and identification of a calculation operation to apply to the metric component.