Servicio de Información Comunitario sobre Investigación y Desarrollo - CORDIS

Distributed control system real-time framework (DCRF)

The "Distributed Control System Real-Time Framework" (DCRF) is a standardised communication platform real-time capable in distributed hardware environments, able to host numerical control components in distributed open platforms. It is based on standardised communication systems and delivered as open source.

The DCRF provides a real-time communication API. This framework is to be coupled with standardized interfaces enabling the integration of external real-time critical and non real-time critical control components.

The most innovative aspects of the DCRF are:
-The DCRF is real-time capable in contrast to former approaches like OSACA, OPC, etc. This ability is crucial for distributed control systems.

-The DCRF enables a flexible composition and reconfiguration of control systems with manufacturing task specific functionality on the basis of a common communication platform. In fact at the moment there is no software tool able to make a high-quality software engineering design for such a complex system as a numerical control. The result is a scalable, portable and flexible framework.

-The DCRF is offered as open source, which helps to gain a wide propagation easily, especially for SMEs that do not have resources to develop a control platform by themselves.

-New generations of control systems can be built upon the DCRF which will simplify the design and implementation of distributed real-time controls.

-The DCRF is not limited to control systems for machine tools but it can rather be applied to various purposes in the field of control systems (e.g. chemical industry, packing machine industry, plastic machine industry, ...).

The consortium found that TAO is the most suitable CORBA ORB, and RTAI/LXRT the preferable Linux real-time extension to form the implementation base of the DCRF.

TAO has been developed at the Washington University of St. Louis with a special focus on its real-time capability. TAO offers a variety of CORBA services as well as the quality-of-service functionality that can be applied to the supervision of modular software systems.

RTAI is preferred as the Linux real-time extension rather than RTLinux because RTAI offers the best real-time support, which is crucial for the realisation of the DCRF. RTAI offers the best C++ support and a more complete feature set. An additional criteria is the availability of LXRT for RTAI that enables the operation of hard real-time tasks in user space. This allows the use of various standard operating system functionalities in real-time applications.

In conclusion, the TAO-RTAI solution has been selected as the best combination to fulfil the requirements of the DCRF. It allows a distribution and cross platform deployment of components in a real-time environment.

The last release of DCRF 0.13-rc1 was tested on RTAI 3.0r4.

A code release was published on the SourceForge site and mailed to the ACE/TAO and RTAI mailing lists. A full-time hardware platform was constructed for testing the port.

But partners also analysed the item of the porting to different versions of RTAI, mainly focusing on the current Magma (3.2) and Fusion (4.0) branches, as these are the only two versions of RTAI which are getting any attention by the core developers. At the moment two source and build trees setup exist: one for TAO on top of RTAI Magma and one for RTAI on top of Fusion using the "native skin". The "native skin" is the API provided on top of RTAI Fusion which resembles RTAI 3.2 most.
LibeRTOS was investigated as an alternative to RTAI/LXRT. The measurements based on the 2.4 Kernel were very promising and the tests were continued with the forecoming LibeRTOS based on a 2.6 kernel.

At the end of the project, the consortium provided a working version of the DCRF, and Deliverable 4.10, a manual for the end users of the DCRF, a document describing how to compile, install and set up the DCRF.

The DCRF is freely delivered as open source; therefore it is clearly a result that is not exploitable, but that sets the basis for all the outcome of the projects, and whose existence and features has been and will be broadly disseminated, in order to promote its use in different industrial environments.

Several dissemination channels were and will be used to this goal: presentations in conferences and workshops, articles in specialised literature, status reports posted on specialized web sites, presentations in machine tool/controller fairs. The OCEAN consortium also made his best to make it visible to the Open Source community through the web site and a dedicated mailing list.

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Fidia S.p.A.
Corso Lombardia 11, NORD OVEST, PIEMONTE
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