| Patent application number | Description | Published |
|---|
| 20080269917 | INDUSTRIAL OPERATOR INTERFACES INTERACTING WITH HIGHER-LEVEL BUSINESS WORKFLOW - Systems and methods are provided that enable high-level and abstract business engines to affect and influence plant-floor or industrial operations via dynamic and flexible operator interfaces. In a similar manner, actions directed from the operator interfaces can be communicated to higher level decision components of an enterprise to facilitate automated control and dynamics of the enterprise. In one aspect, an industrial automation system is provided. The system includes one or more controllers to process transaction events in an industrial automation environment. One or more operator interface components are provided that automatically adapt interface control functionality based on the transaction events. | 10-30-2008 |
| 20090083525 | SYSTEMS AND METHODS THAT FACILITATE MANAGEMENT OF ADD-ON INSTRUCTION GENERATION, SELECTION, AND/OR MONITORING DURING EXECUTION - The subject invention relates to systems and methods that facilitate display, selection, and management of context associated with execution of add-on instructions. The systems and methods track add-on instruction calls provide a user with call and data context, wherein the user can select a particular add-on instruction context from a plurality of contexts in order to observe values and/or edit parameters associated with the add-on instruction. The add-on instruction context can include information such as instances of data for particular lines of execution, the add-on instruction called, a caller of the instruction, a location of the instruction call, references to complex data types and objects, etc. The systems and methods further provide a technique for automatic routine selection based on the add-on instruction state information such that the add-on instruction executed corresponds to a current state. | 03-26-2009 |
| 20090083698 | SYSTEMS AND METHODS THAT FACILITATE MANAGEMENT OF ADD-ON INSTRUCTION GENERATION, SELECTION, AND/OR MONITORING DURING EXECUTION - The subject invention relates to systems and methods that facilitate display, selection, and management of context associated with execution of add-on instructions. The systems and methods track add-on instruction calls provide a user with call and data context, wherein the user can select a particular add-on instruction context from a plurality of contexts in order to observe values and/or edit parameters associated with the add-on instruction. The add-on instruction context can include information such as instances of data for particular lines of execution, the add-on instruction called, a caller of the instruction, a location of the instruction call, references to complex data types and objects, etc. The systems and methods further provide a technique for automatic routine selection based on the add-on instruction state information such that the add-on instruction executed corresponds to a current state. | 03-26-2009 |
| 20090192645 | AUTOMATIC CONTROLLER RELATIONSHIP RESOLUTION - In an industrial control system, a relatively large number of bindings can permeate between different controllers. As a modification is made in a primary binding, supplemental bindings can be impacted and can become erroneous. The supplemental bindings can be automatically resolved such that they are no longer erroneous. Resolution can take place through access of a distributed directory that holds information related to the different controllers. To lower a likelihood of control system error or failure, the primary binding and supplemental binding can be placed online in synchronization. | 07-30-2009 |
| 20090193029 | SELF-ORGANIZED DISTRIBUTED DIRECTORY - Various amounts of information can be beneficial to different controllers configured upon an industrial control system. Information can be retained in a distributed directory such that controllers quickly learn information concerning other controllers. The distributed directory can be automatically constructed and populated with information from different controllers. When a module enters an industrial control system, information can automatically advertise to other units through use of the distributed directory. | 07-30-2009 |
| 20090240348 | EDITING LIFECYCLE AND DEPLOYMENT OF OBJECTS IN AN INDUSTRIAL AUTOMATION ENVIRONMENT - An editor in an industrial automation environment comprises an input component that receives modification data relating to at least one of lifecycle and deployment of an object, the object is associated with a programmable logic controller and configured in accordance with a hierarchically structured data model. An implementation component can implement the modification data with respect to the object. The editor can further comprise a security component that determines that an entity providing the data to the input component is authorized to implement the modification data. | 09-24-2009 |
| 20090300021 | INDUSTRIAL CONTROL METADATA ENGINE - In an industrial control setting, different components can have information that can be valuable to various entities, such as other components, technicians, and the like. A decision can be made as to what information should be available to entities and a determination can be made if the information should be published in a directory or be discoverable. Security can be taken into account in determining if information should be published and decision making can employ adaptive learning, such that a publish and/or discovery decision criterion can be modified based on the learning. | 12-03-2009 |
| 20100042586 | DIRECTORY CONTENT RESOLUTION - In a distributed directory configuration, different nodes can retain information pertinent an industrial control configuration. As information changes in one node, replicas of the information in other nodes can be updated. However, updating can take time and a query can be run upon the directory while nodes have conflicting information. Conflicting information can be identified and resolved such that a query obtains a correct answer. | 02-18-2010 |
| 20100076575 | AUTOMATICALLY ADJUSTABLE INDUSTRIAL CONTROL CONFIGURATION - An industrial control configuration can be a dynamic entity where different controllers are added, are subtracted, fail, etc. When dynamic functions occur, bindings of the configuration can benefit from a modification. Therefore, automatic adjustment of bindings can occur to facilitate improved operation. Automatic adjustment can be practiced when the industrial control configuration is a distributed control configuration without reliance upon a central database. | 03-25-2010 |
| 20100121799 | DIVERSE NETWORK RELATIVE ADDRESSING RESOLUTION - A requesting entity can submit a query to an industrial control configuration to determine a location for a module. A distributed directory can be employed to discover an absolute location of the module, which can be provided to the requesting entity. This discovery can occur in real-time such that an answer can be given with a relatively high degree of certainty. In addition to providing the absolute address in the answer, a path on how to reach the module can be provided. The path can be optimized in order to allow quicker response time and to manage system resources. | 05-13-2010 |
| 20100153771 | PEER-TO-PEER EXCHANGE OF DATA RESOURCES IN A CONTROL SYSTEM - System(s) and method(s) are provided for peer-to-peer exchange of data in a control system. Decentralized storage and multi-access paths provide complete sets of data without dependence on a specific or pre-defined data source or access paths. Data is characterized as data resources with disparate granularity. The control system includes a plurality of layers that act as logic units communicatively coupled through access network(s). Server(s) resides in a service layer, whereas client(s) associated with respective visualization terminal(s) are part of a visualization layer. Peer-to-peer distribution of data resource(s) can be based on available access network(s) resources and optimization of response time(s) in the control system. When client requests a data resource, all the locations of the data resource and the quickest source to retrieve it are automatically determined. The client stores copy of data resource. Peer-to-peer distribution of data resource(s) can be implemented within the service layer or the visualization layer. | 06-17-2010 |
