CN105324728A - An industrial control system for monitoring and controlling an automation plant - Google Patents

Abstract

The invention refers to an industrial control system for monitoring and controlling an automation plant, comprising a control logic (CL) for communicating with a plurality of field devices (FD1, FD2, FD3, FD4) comprising one or more sensors and/or one or more actuators of the automation plant. The industrial control system (CS) includes - an interface module (IM) for coupling the control logic (CL) to one or more external information systems (IS1, IS2, IS3, IS4), the interface module (IM) being adapted to convert data of the respective information systems (IS1, IS2, IS3, IS4) into data of the control logic (CL) and vice versa; - a service oriented module (SOM) for coupling the field de- vices (FD1, FD2, FD3, FD4) to the control logic (CL), the service oriented module (SOM) being adapted to convert functions of the field devices (FD1, FD2, FD3, FD4) into field device services being accessible via the interface module (IM) by the one or more external information systems (IS1, IS2, IS3, IS4).

Description

For the industrial control system of monitoring automation factory

Technical field

The present invention relates to the industrial control system for monitoring automation factory.

Background technology

Industrial control system, such as, well-known SCADA system (SCADA=supervisory control and data acquisition (SCADA)) is operated as the separate payment be separated by its operator usually.Therefore, industrial control system is restricted the control task of permitting external service supporting industry control system in its dirigibility.In addition, current state-of-the-art industrial control system cannot be incorporated in the existing IT infrastructure of operator simply.In other words, the man-machine interface of regular industrial control system is not flexible and disapproves via existing IT infrastructure or the even light access system operation of handheld apparatus.

Owing to above restriction, the deployment of regular industrial control system relates to a large amount of Engineering Task and expense.In addition, in most of the cases, when not needing to reconfigure and restart industrial control system, possibly cannot completing adds new field device (that is, sensor and/or actuator) to automatic factory.

Summary of the invention

Target of the present invention is to provide a kind of can realization and carries out simply and directly mutual industrial control system with external information system.

This target is by independently Patent right requirement solution.Define the preferred embodiments of the present invention in the dependent claims.

Industrial control system of the present invention is used for monitoring automation factory.Industrial control system is preferably SCADA system.Term " automatic factory " broadly should be understood and can be referred to any system of automatically execution technique process.Specifically, automatic factory can be manufacturing works' (such as, assembly line) or perform for the production of the factory of the process of product.In addition, factory can also be generating plant, as nuclear power plant or the factory based on oil or rechargeable energy.

Industrial control system according to the present invention comprises for the steering logic with multiple Field device communication.Those field devices comprise one or more sensor of automatic factory and/or one or more actuator.Control system comprises the interface module for steering logic being coupled to one or more external information system (that is, not belonging to the infosystem of industrial control system).Interface module is configured to convert the data of corresponding information system (that is, in by the data of the form of corresponding information system process) data (that is, in the data by the form of steering logic process) of steering logic to and vice versa.

Above-mentioned term " external information system " should broadly be understood.Specifically, external information system can comprise one or more computer system and/or one or more software application and/or one or more external service and/or one or more user interface and/or one or more decision support system (DSS) and/or one or more Geographic Information System and/or one or more mobile device.

Industrial control system comprises the service-oriented module for field device being coupled to steering logic further.Service-oriented module is configured to the power and energy of field device be become by one or more external information system the field device service can accessed via interface module.

Simple and the flexibility of industrial control system realization of the present invention and external information system is mutual.This interface module by the information between converting industry control system and external system and by providing the service-oriented module of the function of field device (service as accessed by external system) to realize.

In a preferred embodiment, interface module is configured to map source and from the inquiry of steering logic and by least one external service of by least one external information system being provided calls to can by the inquiry of at least one external information system process by least one field device service call to being configured to map source by the inquiry of steering logic process and/or interface module from the inquiry of at least one external information system.This embodiment realizes the effective retrieval of information from steering logic and external information system.

In another embodiment of the present invention, interface module comprises the database for the result storing map information relative to inquiry defined above and/or inquire for high-speed cache and inquire.

In especially preferred variant of the present invention, by the data of steering logic (namely interface module is configured to, in by the data of the form of steering logic process) and the data (that is, be data) by the form of external information system process of one or more external information system convert the message of the internal standard of interface module to and the message conversion of internal standard become the data of one or more external information service and the data of steering logic.

In another preferred embodiment, interface module comprises and is configured to the message of internal standard to be sent to steering logic and the messaging bus that vice versa from corresponding information system.Preferably, messaging bus is configured to the message transmitting internal standard between corresponding information system further, and the information that also realizes thus is exchanged between outside infosystem.

Effective management of serving to provide field device, interface module preferably includes the web services registry storing and can be served by the field device of one or more external information system access, and wherein one or more external information systems can search the field device service be stored in web services registry.Preferably, web services registry stores further to be provided and one or more external service of accessing by steering logic by least one external information system, and wherein steering logic can search the external service be stored in web services registry.This also enables industrial control system access external service.

In another preferred embodiment, interface module comprises access regulator, for the access regulating the some external information systems being coupled to interface module to serve field device.Preferably, industrial control system and specifically interface module comprise rule base, it comprises by access regulator for regulating one group of access rule.

In especially preferred embodiment, the service-oriented module of industrial control system is configured to the function changing plug and play field device.Plug and play field device is well-known in the art.Its ability and/or characteristic are broadcast service-oriented module and can be configured immediately when being connected to industrial control system by those devices, and do not need independent configuration step.Preferably, plug and play field device is based on standard IEEE P1451.4.Additionally or alternatively, service-oriented module is configured to the power and energy of the field device of routine (that is, Non-Plug and Play field device) to become service.

Except above system, the invention still further relates to a kind of method for using industrial control system of the present invention to come monitoring automation factory.In this method, the steering logic of industrial control system and multiple Field device communication, described field device comprises one or more sensor of automatic factory and/or one or more actuator.In addition, interface module steering logic being coupled to one or more external information system converts the data of corresponding information system the data of steering logic to and vice versa.In addition, the power and energy of field device is become field device service by service-oriented module field device being coupled to steering logic, and described field device service can be accessed via interface module by one or more external information system.

All above preferred embodiments of industrial control system of the present invention can in the method for the invention by implementing to adopt the feature of the corresponding embodiment of the form of method characteristic to realize.

Accompanying drawing explanation

Hereafter will describe embodiments of the invention in detail about accompanying drawing, wherein:

Fig. 1 is the schematic diagram of industrial control system according to an embodiment of the invention;

Fig. 2 is included in the schematic diagram of the common interface module in the control system of Fig. 1; And

Fig. 3 is included in the schematic diagram of service-oriented module in the control system of Fig. 1 and conventional modules.

Embodiment

Embodiment described below relates to the industrial control system improving the form adopting well-known SCADA system, and described industrial control system may be used for the technical process monitoring or control any automatic factory.Such as, automatic factory can be for the manufacture of or produce the factory of product.In addition, automatic factory can refer to generating plant, such as, and nuclear power plant or the power plant based on rechargeable energy.

SCADA control system as shown in Figure 1 comprises the SCADA core and steering logic CL that communicate with common interface module IM and service-oriented module SOM.Communication between assembly hereinafter shown in Fig. 1 to Fig. 3 is indicated by double-head arrow.External information system IS1, IS2, IS3 and IS4 are coupled to steering logic CL by common interface module IM, and plug and play field device FD1 and FD2 is directly coupled to steering logic and Non-Plug and Play field device FD3 and FD4 indirect (via conventional modules CM) is coupled to steering logic CL by service-oriented module SOM.Hereinafter, field device FD1 represents plug & play sensor, and field device FD2 represents plug and play actuator.In addition, field device FD3 represents conventional Non-Plug and Play sensor, and field device FD4 represents conventional Non-Plug and Play actuator.When term " sensor " or " actuator " are with time below, this term refers to one in field device FD1 to FD4.

In contrast to the prior art, the SCADA system of Fig. 1 realizes the communication with external information system IS1 to IS4.Infosystem IS1 to IS4 can refer to any system based on hardware and/or software of the part not being SCADA control system CS.Such as, external information system can comprise external service, exterior I T system (such as, intraoffice network), one or more man-machine interface or user interface, one or more Geographic Information System (such as, for the sensor of visual automatic factory and the geographic position of actuator) or other system any, such as, for the system of mobile device, as the Telnet connected via GPRS.In addition, external information system can point to the decision support system (DSS) that user provides information to make decisions relative to automatic factory to help user.

Common interface module IM realizes data process by external information system IS1 to IS4 to convert to that the data by steering logic CL process can be converted to by the data of steering logic CL process and realization can by the data of corresponding information system process.Service-oriented module SOM converts the function (coupling via between module SOM and CM) of the function of plug and play field device FD1 and FD2 and Non-Plug and Play field device FD3 and FD4 to can be accessed via common interface module IM by external information system IS1 to IS4 field device service.This will describe after a while in more detail.

The SCADA system of Fig. 1 permit with the better of the existing information system of entity and closer to integration, the object operation SCADA system that described entity needs for its business.In addition, the SCADA system of Fig. 1 reconfigures, adds and upgrades field device more neatly.

The common interface module IM of Fig. 1 plays a crucial role when SCADA system and other external information system (such as, belonging to the infosystem with SCADA system same enterprise) are integrated.Meanwhile, common interface module is responsible for providing to can via the controlled access of the device of SCADA system access and information.

The detailed view of common interface module shown in Fig. 2.As can be from then on found out in figure, common interface module IM is connected to SCADA core and steering logic CL via service interface SEI respectively and is connected to respective external infosystem IS1 to IS4 via interface adapter IA1, IA2, IA3 and IA4.Interface adapter IA1 to IA4 is coupled to service interface SEI via messaging bus MB.Service interface SEI converts the data from SCADA steering logic CL the message of inside story form or standard to, and described message is transmitted by messaging bus MB.By identical mode, the message of inside story form can be converted to by service interface SEI can by the data of SCADA steering logic CL process.Similarly, the corresponding interface adapter IA1 to IA4 the data from corresponding informance system IS1 to IS4 are converted to inside story form message and by the message conversion of inside story form become can by the data of corresponding information system process.

Specifically, the inquiry of the steering logic CL being directed to customizing messages system can be converted to can by the form of customizing messages system process for interface module IM.In addition, the inquiry sent by external information system being directed to the service of field device being converted to by interface module IM can by the inquiry of SCADA steering logic CL process.Such as, assuming that existence should be pushed to the sensor values of the field device of user interface or the alarm from SCADA steering logic.Common interface module IM then responsible semantic information enriches sensor information and described sensor information is fed to user interface as service response.From SCADA steering logic CL or from external information system acceptance to query-response and result be stored in as local cache database D B, until described information is effective.

As mentioned above, common interface module IM is responsible for the inquiry from interface adapter IA1 to IA4 to be mapped to the compatibility inquiry of SCADA steering logic and is responsible for the inquiry from service interface SEI to be mapped to inquire the compatibility of respective external infosystem.This has come by using the map information be stored in local data base DB.Such as, assuming that SCADA steering logic CL stores the information according to data point classification, described data point can according to given classification (such as, sensor.pressure_sensor.sensor_gpsposition1) tree structure is arranged to, semantic query (such as, retrieving all pressure sensor value of the sensor in the xyz of geographic area) then can be mapped to the sensor interrogation for particular sensor by interface module IM.This allows the corresponding application program in the external information system of access SCADA information more flexible when inquiring.Specifically, described application program does not need the Explicit Knowledge of accurate sensor type or sensor address.Certainly the explicit inquiry to particular sensor is also supported.

Messaging bus MB is responsible for the corresponding assembly of the intended receiver transmitted the message to as message.All message on messaging bus MB and information flow are crossed access regulator AR and are regulated.This module can be configured in (such as) list of passing through permitted information source and consumer.In addition, access regulator and can also be configured to the authentication and authorization (such as, specific service access specific information or actuation commands really) checking each inquiry.In a preferred embodiment, if multiple external service is configured to operated actuator (such as, mechanical arm, pump etc.), so priority list and one group of regular access regulated actuator can be used by access regulator AR.Such as, this needs to be used for avoid conflict (opening pump order and closing pump order while of such as).In addition, the rule base storing described group of rule is used can to keep the intended operating conditions of whole system.Rule base can be stored in the database D B of common interface module IM in SCADA steering logic CL or its can by suitable service provision.

Common interface module IM comprise further for search via SCADA control system CS can the web services registry SR of service.These services comprise the service provided by SCADA steering logic CL, that is, field device service, and via the external service that messaging bus MB registers in SCADA common interface module IM.Allowance external service utilizes via common interface module IM or uses other external service by this, thus realizes IT infrastructure based on the more tighter integration of external information system via SCADA control system CS.

As mentioned above, via SCADA steering logic CL and common interface module IM field device service is supplied to the external service consumer in external information system.Such as, the function of the actuator of actuation commands form is adopted can be configured to the service of actuator.As an example, the order for closing pump can be summarized as the service for disconnecting pump.In addition, the information retrieval order for field device the form in appropriate services can be revealed in external information system (such as, using the method based on SOAP or REST or other suitable mechanism any).This achieve and simply use SCADA system via external application, and permit carrying out long range positioning (such as, services request being sent to SCADA system to carry out the flat computer of retrieving information by calling the appropriate services provided by SCADA system) for the man-machine interface controlling SCADA system.

Interface adapter IA1 to IA4 is responsible for being situated between and receives the indivedual external information system mutual with SCADA control system and allow message to the conversion of inside story standard and conversion, and described inside story standard is for message transfer on messaging bus MB.Internal standard is from standard well known in the prior art, described prior art such as, based on the publish/subscribe mechanism (OMG=Object Management Group) of OMG data distribution service.By same way, service interface SEI is situated between and receives SCADA steering logic CL and allow message from steering logic to the conversion of internal standard and conversion.In addition, interface adapter IA1 to IA4 and service interface SEI also realizes conversion on other direction and conversion, that is, from messaging bus to external information system and from messaging bus to SCADA steering logic.

The hard coded that the use with the messaging bus MB of corresponding interface avoids between every a pair service connects and makes the maintenance of SCADA control system CS and upgrading become easy, and the service on not influential system upper strata.Such as, the interface of decision support system (DSS) does not need along with each upgrading of SCADA core and upgrades, unless decision support system (DSS) is wanted to use by the new service provided through renewal SCADA system and therefore needed interior change.This will guarantee the Long Term Evolution of the SCADA control system with backward compatibility.The assembly of common interface module as described above also realizes the suitable expression (such as, using suitable Geographic Information System or network interface to carry out the state of display systems) from the output on medium selected by SCADA control system.

The function of above-mentioned common interface module may be summarized to be as follows:

-message-oriented I/O;

-support to some communication paradigm, such as, message push, news release/subscription, request and response;

-for the authentication and authorization inspection to the access of information and the access to sensor and actuator that are stored in data store internal;

-sensor and actuator are revealed in the external application of access common interface module as service;

-allow to be connected between the system of common interface module and service, such as, the co-operating between different decision support system (DSS) or between Geographic Information System and another external information system.

Fig. 3 illustrates the detailed view of service-oriented module SOM and conventional modules CM.Plug & play sensor FD1 and plug and play actuator FD2 is connected to SCADA steering logic CL by module SOM.Plug & play sensor and actuator are well-known from prior art.Those devices do not need to be configured in independent layoutprocedure when being connected to SCADA control system.Alternatively, its ability/characteristic is broadcast module SOM by plug-and-play apparatus, that is, device issues the explanation that can how be configured about them and operate.Based on this information, configuring immediately and not needing independent configuration step when can complete in insertion apparatus.

As shown in Fig. 3, via the sensor adapter SEA of sensor FD1 and the actuator adaptor AA of actuator FD2, the information of field device FD1 and FD2 is provided to service-oriented module SOM.Service-oriented module comprises being situated between further receives the generic service adapter SA of SCADA steering logic CL.Service-oriented module by the information of adapter SA in the future sensor and actuator FD1 and FD2 convert to common format service and by described Service delivery to SCADA steering logic CL, described SCADA steering logic CL the most at last this information is sent to common interface module IM further, makes external information system can access described service.

As can as seen from Figure 3, conventional modules CM be also integrated in SCADA control system, for the treatment of the Non-Plug and Play sensor FD3 of routine and the Non-Plug and Play actuator FD4 of routine.Sensor FD3 is coupled to conventional modules CM via sensor interface SI and actuator FD4 is coupled to conventional modules CM via actuator interface AI.Sensor interface SI and actuator interface AI is coupled to the service adapter SVA of service-oriented module SOM.Make so also to provide the function of conventional sensors and actuator as service via service-oriented module SOM.That is, be similar to plug & play sensor and actuator, the function of the conventional sensors received by service adapter SVA converts service to via module SOM and is provided to common interface module IM.

In short, service-oriented module SOM makes it possible to " intelligence " plug & play sensor that discovery can broadcast its ability.Specifically, the intelligent plug & play sensor as described in standard IEEE P1451.4 can be coupled to service-oriented module SOM.Those sensors are equipped with transducer spreadsheet (TEDS), that is, the air environment containing model customizing messages (such as, the customizing messages of manufacturer's title, model, sequence number and such as calibration data).TEDS electronic equipment is memory assembly, that is, usual Electrically Erasable Read Only Memory (EEPROM), itself and data acquisition system (DAS) (that is, service-oriented module SOM) digital communication.Digital communication can occur as simulating signal or occur on independent special wire in same wire.TEDS is contained for describing all necessary informations how to be configured by SCADA system.TEDS can be applied to various sensor type, such as, and LOAD CELLS, integrated electronics piezoelectric accelerometer, resistance temperature detector and other general modulating output sensor any.Similarly, the intelligent actuators based on standard IEEE P1451.4 can be coupled to service-oriented module SOM.

According to foregoing teachings, the service of plug & play sensor and actuator is provided to common interface module IM by service-oriented module.In order to do like this, the service of service-oriented module sensor in future and actuator is revealed in common interface module IM and is therefore revealed in SCADA steering logic CL.Therefore, at SCADA steering logic CL, there is close-coupled between service-oriented module SOM and common interface module IM.In addition, service-oriented module SOM can also process conventional sensors and actuator by its power and energy is become respective service.In order to do like this, the conventional modules CM receiving data from conventional sensors and actuator is coupled to service-oriented module SOM via service adapter SVA.Therefore, the function of conventional sensors and actuator is also visible as serving SCADA steering logic and common interface module.

The present invention as described above has some advantages.Specifically, service-oriented feature is implemented in SCADA control system, thus realizes integrating new generation sensor and actuator.In addition, sensor and actuator can be revealed in external application and decision support system (DSS) via SCADA system as service.The service-oriented feature of SCADA system with existing and new Information System Integration (such as, new IT foundation structure and application program), and can not need too many manual effort.

SCADA system as described above uses plug & play sensor and actuator via service-oriented module.In addition, conventional sensors and actuator also can possess service-oriented ability and be used.In addition, man-machine interface layer via service interface and SCADA system loose couplings (or separate be coupled), thus allows to support various types of man-machine interface (via network from the PC of routine to mobile device etc.).In addition, SCADA system and allows the message being shown to each output channel to realize different display possibility by using based on order, authentication and authorization (via access regulator).In addition, what SCADA system realized with decision support system (DSS) is mutual.

Claims (15)

1. the industrial control system for monitoring automation factory, it comprises steering logic (CL), described steering logic is used for communicating with multiple field devices (FD1, FD2, FD3, FD4) of the one or more sensor and/or one or more actuator that comprise described automatic factory, wherein, described industrial control system (CS) comprises

Interface module (IM), for described steering logic (CL) is coupled to one or more external information system (IS1, IS2, IS3, IS4), described interface module (IM) is configured to convert the data of described corresponding information system (IS1, IS2, IS3, IS4) data of described steering logic (CL) to and vice versa;

Service-oriented module (SOM), for described field device (FD1, FD2, FD3, FD4) is coupled to described steering logic (CL), described service-oriented module (SOM) is configured to the field device service becoming to be accessed via described interface module (IM) by described one or more external information system (IS1, IS2, IS3, IS4) by the power and energy of described field device (FD1, FD2, FD3, FD4).

2. system according to claim 1, wherein, described industrial control system (CS) is SCADA system.

3. system according to claim 1 and 2, wherein, described interface module (IM) is configured to be coupled to described one or more external information system (IS1, IS2, IS3, IS4), and this type of information system (IS1, IS2, IS3, IS4) comprises one or more computer system and/or one or more software application and/or one or more external service and/or one or more user interface and/or one or more decision support system (DSS) and/or one or more Geographic Information System and/or one or more mobile device.

4. according to the system described in above claim, wherein, described interface module (IM) is configured to map source from least one external information system (IS1, IS2, IS3, IS4) inquiry and give the inquiry that can be processed by described steering logic (CL) by least one field device service call, and/or described interface module (IM) is configured to map source from the inquiry of described steering logic (CL) and will by least one external information system (IS1, IS2, IS3, IS4) at least one external service provided is called to can by described at least one external information system (IS1, IS2, IS3, IS4) inquiry processed.

5. system according to claim 4, wherein, described interface module (IM) comprises for storing map information and/or the database (DB) for the result of inquiry and described inquiry described in high-speed cache for described inquiry.

6. according to the system described in above claim, wherein, described interface module (IM) is configured to the message data of the data of described steering logic (CL) and described one or more external information system (IS1, IS2, IS3, IS4) being converted to the internal standard of described interface module (IM), and the described message conversion of described internal standard is become the data of described one or more external information service (IS1, IS2, IS3, IS4) and the data of described steering logic (CL).

7. system according to claim 6, wherein, described interface module (IM) comprises messaging bus (MB), and described messaging bus is configured to the described message of described internal standard to be sent to described steering logic (CL) and vice versa from respective external infosystem (IS1, IS2, IS3, IS4).

8. system according to claim 7, wherein, described messaging bus (MB) is configured to the described message transmitting described internal standard between respective external infosystem (IS1, IS2, IS3, IS4).

9. according to the system described in above claim, wherein, described interface module (IM) comprises the web services registry (SR) of the described field device service that storage can be accessed by described one or more external information system (IS1, IS2, IS3, IS4), and wherein said one or more external information system (IS1, IS2, IS3, IS4) can search the described field device service be stored in described web services registry (SR).

10. system according to claim 8, wherein, described web services registry (SR) stores further and is provided and the one or more external service can accessed by described steering logic (CL) by least one external information system (IS1, IS2, IS3, IS4), and wherein said steering logic (CL) can search the described external service be stored in described web services registry (SR).

11. according to the system described in above claim, wherein, described interface module (IM) comprises access regulator (AR), for the described access regulating some external information systems (IS1, IS2, IS3, IS4) of being coupled to described interface module (IM) to serve described field device.

12. systems according to claim 11, wherein, described industrial control system (CS) comprises rule base, and described rule base comprises by described access regulator (AR) for regulating one group of rule of described access.

13. according to the system described in above claim, wherein, described service-oriented module (SOM) is configured to plug and play field device (FD1, FD2), especially the power and energy based on the plug and play field device (FD1, FD2) of standard IEEE P1451.4 becomes field device service, and its ability and/or characteristic are broadcast described service-oriented module (SOM) by described plug and play field device (FD1, FD2).

14. according to the system described in above claim, and wherein, described service-oriented module (SOM) is configured to the power and energy of Non-Plug and Play field device (FD3, FD4) to become field device service.

15. 1 kinds for by the method according to industrial control system (CS) the monitoring automation factory described in above claim, wherein, described steering logic (CL) communicates with multiple field devices (FD1, FD2, FD3, FD4) of the one or more sensor and/or one or more actuator that comprise described automatic factory, and wherein

The interface module (IM) described steering logic (CL) being coupled to one or more external information system (IS1, IS2, IS3, IS4) converts the data of described corresponding information system (IS1, IS2, IS3, IS4) data of described steering logic (CL) to and vice versa;

The field device service that the power and energy of described field device (FD1, FD2, FD3, FD4) becomes to be accessed via described interface module (IM) by described one or more external information system (IS1, IS2, IS3, IS4) by the service-oriented module (SOM) described field device (FD1, FD2, FD3, FD4) being coupled to described steering logic (CL).