This application claims priority to the International Application No. PCT/DE2003/003202, filed Sep. 25, 2003, which is incorporated by reference herein in its entirety.
The invention relates to a system and a method for the use of services within at least one communication network with internet mechanisms and at least one automation system, as well as a service access means for connecting an automation system to a communication network.
The unpublished DE 1 022 98 79 describes a data processing system with improved provision of services for the provision of functionalities. The data processing system thereby has at least one first service for activating and deactivating at least one second service.
In a data processing system of this type services for the provision of functionalities can be implemented in particular as so-called web services. Web service technology is used increasingly in the internet and helps to transform the internet from a user-centered information medium to an information and web service environment that can be used directly by applications. In this process standard internet technologies (HTTP, SOAP, WSDL, UDDI) are generally used in order to be able to use web services directly in an application.
An object of the invention is to improve the use of services within a communication network with internet mechanisms and within an automation system.
This object is achieved by the claims. A system is thereby proposed for the use of services within at least one communication network with internet mechanisms and at least one automation system, with components of the automation system being coupled together by means of a conventional field bus, with a service access means being provided to connect the conventional field bus to the communication network, with the service access means being provided as client for the services provided in the communication network, with the service access means having transformation means, which are provided to adapt a first communication protocol of the services to a second communication protocol of the field bus.
A method is furthermore proposed for the use of services within at least one communication network with internet mechanisms and at least one automation system with components coupled together by means of a conventional field bus, with which method a service access means connects the conventional field bus to the communication network, the service access means operates as client for the services provided in the communication network and transformation means of the service access means adapt a first communication protocol of the services to a second communication protocol of the field bus.
The object is also achieved by a service access means for connecting an automation system to a communication network with internet mechanisms, which is provided as client for services provided in the communication network and which has transformation means, which are provided to adapt a first communication protocol of the services to a second communication protocol of a conventional field bus connecting components of the automation system.
Automation engineering systems generally have a complex structure. The components of the automation systems are networked by means of specific communication systems (e.g. actuator-sensor buses, field buses, industrial Ethernet). With the internet in particular there is a parallel standardized communication network with internet mechanisms available worldwide, via which numerous services can be provided. According to the invention services are made available for automation engineering systems in a flexible manner. These systems do not themselves necessarily have to have an internet architecture with the corresponding internet mechanisms or protocols. The flexible architecture allows the transformation of services of the communication network with internet mechanisms to the automation system with lower-level conventional field bus beyond the boundaries of the communication network with internet mechanisms. The invention allows services to be commissioned for automation systems from any location, thereby benefiting from the advantages of a widely distributed network.
The service requested by the automation system ultimately becomes active in the automation system itself. This requires a service access means to establish the connection between services and automation system. According to an advantageous embodiment of the invention this service access means is part of the automation system, in other words it is integrated in the automation system as a component of the automation system. This reduces the number of components required in the system.
According to a further advantageous embodiment of the invention the communication network has at least one central register means to provide information about at least some of the services. The service access means also has search means, which can be used to address the central register means. There is therefore an architecture, which is characterized in that there are register means (Yellow Pages) in the communication network with internet mechanisms, said means containing details of available services. A service user does not necessarily have to know these register means. An enquiry using the search means takes said user to these register means where they obtain information about which services are available for their automation system. A service user can thereby be both a person (e.g. customer, service engineer) or a technical system (e.g. unit, computer, component).
In the internet in particular numerous services are provided as so-called web services. According to a further advantageous embodiment of the invention the services that are provided or used are such web services. Web services use standard internet protocols and mechanisms, e.g. HTTP (HyperText Transfer Protocol), SOAP (Simple Object Access Protocol), WSDL (Web Service Description Language). The service user is directed to a first service provider via the selection (manual or automated) of the required web service. The first service provider will generally require further resources (e.g. database server) to implement the service. Any number of further service providers are therefore called on to implement the service. The roles of service provider (=server) and service user (=client) therefore alternate within the components involved, without these mechanisms, which are typical for the use of a web service, being visible to the actual service user. The service user is only concerned with their requested service and does not have to deal with details of implementation via web services. Combining flexible web services based on internet technologies with automation system engineering significantly extends the functionality of the automation system at its outer interface. In particular this allows flexible and location-independent access to automation systems, the provision of new services for automation systems and the automation of services or the autonomous processing of services with or without manual initiation.
Automation systems can be coupled to different communication networks. According to a further advantageous embodiment of the invention the communication network is an intranet. Many different information-processing devices, for example PCs, laptops, mainframes, web servers, etc., can be connected to such an intranet. Some of these devices provide services, which can also be used by the components of the automation system. The different information-processing devices can have client or server functionalities, with a combination of the two functionalities also being possible in one device.
The automation system or service access means can take on the role of both client and server during the course of the services, if according to a further advantageous embodiment of the invention the service access means is also provided to provide further services in the communication network.
The claimed method can advantageously be used to implement software updates for the components of the automation system via the internet, in particular to implement firmware updates. This allows the component software to be loaded, updated or supplemented in a user-friendly and largely automatic manner.
The invention is described in more detail below with reference to the exemplary embodiments shown in the figures, in which:
The transformation of services in the communication network 4 to services of automation systems 5 that can also be transmitted by means of the conventional field bus 8 is described in more detail below. The service access means 6 essentially provides a gateway between the lower-level conventional field bus 8 and the communication network 4, e.g. the internet. In addition to access to the conventional field bus 8 the service access means 6 also has a connection to the communication network 4 (internet/intranet) and software components, which allow it on the one hand to provide services itself in the communication network (e.g. web services) and on the other hand to operate as client for services/web services provided in the communication network 4. Data or services reaching the service access means 6 via the latter route can be injected into the conventional field bus 8 through the connection between the service access means and said field bus, after they have been correspondingly prepared by means of the transformation means 7 (e.g. protocol adaptation, conversion to specific services of the field bus system, previous continuing data processing, etc.). Depending on the complexity of the data processing, the service access means 6 can comprise just hardware or a combination of hardware and software.
The principle of service use with the aid of the system proposed here is to be described in more detail below based on the exemplary embodiment according to
A system with the structure shown in
The use of the firmware update service is to be described with reference to the example in
In addition to the example of the use of a firmware update service described here, the described system and method can for example also be used for:
To summarize, the invention therefore relates to a system and a method for the use of services 1, 2 within at least one communication network 4 with internet mechanisms and at least one automation system 5, as well as a service access means 6 for connecting an automation system 5 to a communication network 4. A system is proposed for the improved use of services 1, 2 within at least one communication network 4 with internet mechanisms and at least one automation system 5, with components 10 of the automation system 5 being coupled together by means of a conventional field bus 8, with a service access means 6 being provided to connect the conventional field bus 8 to the communication network 4, with the service access means 6 being provided as client for the services 1, 2 provided in the communication network 4 and with the service access means 6 having transformation means 7, which are provided to adapt a first communication protocol of the services 1, 2 to a second communication protocol of the field bus 8.
A summary of web service technology is given below, to clarify the invention further. This technology allows both direct communication between applications (the so-called services) and the setting up of applications from distributed components (again services), i.e. loosely connected web services can work together to complete a task. Web service technology uses standards such as XML and SOAP to scale from local communication to communication via the intranet/internet. It is the basis for distributed and integrated internet application, using existing standards (e.g. W3C, IETF standards such as HTTP, AL, XML Schema, XL Data Types, etc.) or new ones, together with W3C, IETF defined standards such as SOAP, WSDL, UDDI. Web service interfaces are described by meta-information (methods, parameters (names and types)), generally in WSDL (Web Service Description Language). This complete interface description is adequate to call web services. It describes the end point (port), at which the respective web service can be called and is particularly useful for automatic communication with web services. Web services are characterized by simple access, with the boundaries between local APIs and web services (“web APIs”) blurring. Access is as simple as when generating and using a local object. Web service technology is therefore the basis for loosely coupled applications. It is characterized by message-based communication and scalability due to statelessness. The loose coupling (e.g. with SOAP) in particular has the advantage of good compatibility in respect of changes in implementation at client and server and reliable communication (port-based, message-based, asynchronous). In message-based systems a client packs messages into self-describing packets (messages) and sends them in this form via the respective communication connection. An agreement is only reached between sender and recipient in respect of the message format used on the line. The sole assumption is that the recipient understands the message. No assumptions are made as to what happens after receipt of the message or between sender and recipient. Standard web services have the following characteristics: They can be accessed via a communication network such as internet/intranet and have an XML interface. Information about web services is stored in a registry so that web services can be located using this. They communicate with the aid of XML messages via web protocols and support loosely coupled connections between systems.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/DE03/03202 | 9/25/2003 | WO | 00 | 12/21/2006 |
Publishing Document | Publishing Date | Country | Kind |
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WO2005/041490 | 5/6/2005 | WO | A |
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