An automation interface is provided for interacting with industrial controllers. The automation interface provides for programming, editing, monitoring and maintenance of industrial controllers programmatically from a local or remote location. The automation interface component is adapted to communi
An automation interface is provided for interacting with industrial controllers. The automation interface provides for programming, editing, monitoring and maintenance of industrial controllers programmatically from a local or remote location. The automation interface component is adapted to communicate with industrial controllers by integrating a computer process interface library into the automation interface component. The computer process interface library exposes the automation interface component to client application processes, so that the client application processes can communicate with the at least one industrial controller programmatically. The automation interface is provided with functionality for downloading, uploading and programming of control programs to the processors of the industrial controllers.
대표청구항▼
1. An industrial control device, comprising: a processor; anda memory communicatively coupled to the processor, the memory having stored therein computer-executable instructions, comprising: a server component configured to: expose an automation interface to a client application, wherein the automat
1. An industrial control device, comprising: a processor; anda memory communicatively coupled to the processor, the memory having stored therein computer-executable instructions, comprising: a server component configured to: expose an automation interface to a client application, wherein the automation interface is in communication with another industrial control device and comprises one or more classes of objects, including at least one attribute or method defined for each object, wherein the automation interface is configured to: assign a project object to the other industrial control device, the project object being associated with at least one program file object residing on the other industrial control device and at least one data file object residing on the other industrial control device;receive, from the client application, a request specifying the project object to upload from or download to the other industrial control device associated with the project object;based on the project object specified in the received request, execute the request with the other industrial control device; andwherein the automation interface communicates with the other industrial control device using a first communication protocol, and the automation interface communicates with the client application using a second communication protocol. 2. The industrial control device of claim 1, wherein the automation interface is further configured to: receive a client request from the client application according to a first communication protocol; andinvoke one or more communications classes or functions of the one or more classes of objects to execute the client request with the other industrial control device via a second communication protocol that is different from the first communication protocol. 3. The industrial control device of claim 1, wherein the client application resides on a remote computer that is connected to the industrial control device through a network. 4. The industrial control device of claim 1, wherein the server component is further configured to generate, based on the one or more classes of objects, the automation interface. 5. The industrial control device of claim 1, wherein the automation interface is further configured to: receive another data request from the client application which specifies an attribute of an object associated with the project object;identify the project object based on the attribute and the other industrial control device associated with the project object;issue a request to the other industrial control device for data associated with the attribute of the object specified in the other data request;receive the requested data from the other industrial control device; andtransmit the requested data to the client application. 6. The industrial control device of claim 1, wherein the request from the client application specifies the project object to upload from the other industrial control device associated with the project object; and wherein the automation interface is further configured to: receive another request from the client application specifying an edited version of the project object to download to the other industrial control device associated with the project object; andbased on the edited version of the project object specified in the other request, execute the other request with the other industrial control device. 7. A method, comprising: exposing, by a server component of an industrial control device, an automation interface to a client application, wherein the automation interface is in communication with another industrial control device and comprises one or more classes of objects, including at least one attribute or method defined for each object;assigning, by the automation interface of the industrial control device, a project object to the other industrial control device, the project object being associated with at least one program file object residing on the other industrial control device and at least one data file object residing on the other industrial control device;receiving, by the automation interface of the industrial control device from the client application, a request specifying the project object to upload from or download to the other industrial control device associated with the project object;based on the project object specified in the received request, executing, by the automation interface of the industrial control device, the request with the other industrial control device; andwherein the automation interface is communicating with the other industrial control device over a first network using a first communication protocol and the automation interface is communicating with the client application over a second network using a second communication protocol. 8. The method of claim 7, further comprising: receiving, by the automation interface of the industrial control device, a client request from the client application according to a first communication protocol; andinvoking, by the automation interface of the industrial control device, one or more communications classes or functions of the one or more classes of objects to execute the client request with the other industrial control device via a second communication protocol that is different from the first communication protocol. 9. The method of claim 7, wherein the client application resides on a remote computer that is connected to the industrial control device through a network. 10. The method of claim 7, further comprising generating, by the server component of the industrial control device, based on the one or more classes of objects, the automation interface. 11. The method of claim 7, further comprising: receiving, by the automation interface of the industrial control device, another data request from the client application which specifies an attribute of an object associated with the project object;identifying, by the automation interface of the industrial control device, the project object based on the attribute and the other industrial control device associated with the project object;issuing, by the automation interface of the industrial control device, a request to the other industrial control device for data associated with the attribute of the object specified in the other data request;receiving, by the automation interface of the industrial control device, the requested data from the other industrial control device; andtransmitting, by the automation interface of the industrial control device, the requested data to the client application. 12. The method of claim 7, wherein the request from the client application specifies the project object to upload from the other industrial control device associated with the project object; and further comprising: receiving, by the automation interface of the industrial control device, another request from the client application specifying an edited version of the project object to download to the other industrial control device associated with the project object; andbased on the edited version of the project object specified in the other request, executing, by the automation interface of the industrial control device, the other request with the other industrial control device. 13. A method, comprising: receiving, by an industrial controller from an automation interface executing on a server computer, an assignment of a project object to the industrial controller, the project object being associated with at least one program file object residing on the industrial controller and at least one data file object residing on the industrial controller, wherein the automation interface is exposed to a client application on a remote computer;receiving, by the industrial controller via the automation interface, a request message comprising information relating to a data request from the client application to upload control process data from a data file object, the data request specifying the control process data as an attribute of the project object or an object associated with the project object, wherein the request message is generated by the automation interface based on the specified control process data attribute in the data request; andwherein the industrial controller is communicating with the automation interface over a first network using a first communication protocol, and the automation interface is communicating with the client application over a second network using a second communication protocol. 14. The method of claim 13, further comprising transmitting, by the industrial controller to the automation interface, the requested control process data. 15. The method of claim 13, further comprising receiving, by the industrial controller via the automation interface, another request message comprising information relating to a request from the client application specifying an edited version of the project object to download to the industrial control device associated with the project object. 16. The method of claim 15, further comprising downloading by the industrial controller the edited version of the project object.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (69)
Nason, D David; O'Rourke, Thomas C; Campbell, Scott, Alternate display content controller.
Gloudeman Jeffrey J. ; Gottschalk Donald A. ; Rasmussen David E. ; Ruppert Nicholas J. ; Wainscott ; Jr. Barrett G., Application framework for constructing building automation systems.
David A. Glanzer ; Terrance L. Blevins ; Ram Ramachandran ; Kenneth D. Krivoshein ; Patricia E. Brett ; Jack Elias ; William R. Hodson ; Frank Lynch ; Ashok K. Gupta ; Lee A. Neitzel ; Thom, Block oriented control system.
Wright Michael R. (Indianapolis IN) Platts David E. (Plainfeild IN) French Daniel B. (Carmel IN) Traicoff Gerald (Indianapolis IN) Dupont Michael A. (Fishers IN) Head Gregory A. (Plainfield IN), CNC control system.
Ueno, Masayuki, Control method of factory automation system, recording medium recording a program therefor and central processor of factory automation system.
Cope Michael E. (Richardson TX), Distributed industrial control system with remote stations taking turns supervising communications link between the remo.
Rosner Lisa E. ; Rajaiah Karanam ; Wolf Jonathan A. ; Pedersen Karl D. ; Kertesz Veronica, Interface monitor for communicating between different communication protocols.
Allen Bruce S. (Willow St. East Kingston NH 03827) Dunalvey Michael R. (276 Harris Ave. Needham MA 02192) King Bruce A. (R.F.D. 2 Bolton MA 01740) DuPrie Harold J. (57 High St. ; Apt. 1B Andover MA 0, Man machine interface.
Ruehle Lyle L. (Franklin WI) Karshenas Hamid (Milwaukee WI) Hill Brian T. (Meguon WI) Mikulich James B. (Waukesha WI), Map interface unit for industrial programmable logic controllers.
Christopher G. Kaler ; Martyn S. Lovell ; Robert S. Wahbe ; William J. Ferguson ; Oliver J. Sharp, Method and apparatus for analyzing performance of data processing system.
William E. Barker ; Lisa M. Connelly ; Marvin A. Eggert ; Michael P. Foley ; Kenneth R. Macfarlane ; Philip M. Parsons ; Girish Rai ; Jerome E. Rog ; Kurt A. Vangsness, Method for computer internet remote management of a telecommunication network element.
Tate Allan R. ; Saylor Michael J ; Grosser John T., Method for identifying the validity of an executable file description by appending the checksum and the version ID of th.
Eldridge,Keith; Meskonis,Paul; Hall,Robert; Burke,Kenneth A.; Volk,Scott; Johnson,Mark; Mackay,Brian; Dardinski,Steven, Methods and apparatus for control configuration with versioning, security, composite blocks, edit selection, object swapping, formulaic values and other aspects.
Dardinski, Steven; Eldridge, Keith; Hall, Robert; Johnson, Mark; MacKay, Brian; Meskonis, Paul; Volk, Scott, Methods and apparatus for controlling object appearance in a process control configuration system.
Onarheim William G. (Milwaukee WI) Dudley Horace (Hales Corners WI) Meyer Barbara E. (Greendale WI) Viste Michael J. (Grafton WI) Morley David J. (Thousand Oaks CA), Methods for set up and programming of machine and process controllers.
Lewis Robert W. ; Tanner Matthew A. ; Walker Timothy K., Object-oriented computer program, system, and method for developing control schemes for facilities.
Dardinski,Steven; Eldridge,Keith; Hall,Robert; Johnson,Mark; McKay,Brian; Meskonis,Paul; Volk,Scott, Process control configuration system with connection validation and configuration.
Nixon Mark ; Havekost Robert B. ; Jundt Larry O. ; Stevenson Dennis ; Ott Michael G. ; Webb Arthur,GB2 ; Lucas Mike,GB2, Process control system user interface including selection of multiple control languages.
Graber Mark S. (Streetsboro OH) Fraley Kris M. (Huntsburg OH) Zink Steven M. (Hudson OH) Jeffery R. Jay (Mentor OH) Epner Paul J. (Grafton WI), Remote downloading and uploading of motion control program information to and from a motion control I/O module in a prog.
Zintel, William Michael; Christian, Brian S.; Christian, Bradford A., Synchronization of controlled device state using state table and eventing in data-driven remote device control model.
Vazquez, Nicolas; Kodosky, Jeffrey L.; Kudukoli, Ram; Schultz, Kevin L.; Nair, Dinesh; Caltagirone, Christophe, System and method for automatically generating a graphical program to perform an image processing algorithm.
Washington,Jeffrey D.; Kudukoli,Ram; Dye,Robert E.; Austin,Paul F., System and method for programmatically generating a graphical program in response to user input.
Hoskins Josiah C. ; Brooks Ruven E. ; Hafemann Dennis R. ; Chalupa Jan,CZX, System, method and article of manufacture for building an enterprise-wide data model.
Hafemann Dennis R. ; Brooks Ruyen E. ; Hoskins Josiah C. ; Sastry Shivakumar, System, method and article of manufacture for utilizing external models for enterprise wide control.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.