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iLAND project

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The iLAND project (middleware for deterministic dynamically reconfigurable networked embedded systems) [1] is a cross-industry research & development project for advanced research in embedded systems.[2] It has been developed with the collaboration of 9 organisations including Industries, SMEs and Universities from Spain, France, Portugal, Netherlands and a university from United States. The project is co-funded by the ARTEMIS Programme related to the topic: 'SP5 Computing Environments for Embedded Systems'.

Middleware functionalities

The merging of the real-time systems and the service-oriented architectures enables more flexible a dynamic distributed systems with real time features. So a number of functionalities have been identified to create a SoA based middleware for deterministic reconfiguration of service based applications:

  • Service registration/deregistration: Stores in the system the functionalities and the description of the different services.
  • Service discovery: Enables external actor to discover the services currently stored in the system.
  • Service composition: Creates the service based application on run-time.
  • Service orchestration: Manages the invocation of the different services.
  • Service based admission test: This functionality checks if there are enough resources for the services execution in the distributed system.
  • Resource reservation: This functionality acquires the necessary resources in the host machine and the network.
  • System monitoring: This functionality measures if the resources required for the execution of services are not being exhausted.
  • System reconfiguration: This functionality changes the services currently running on the system by other services providing same functionality.

Middleware architecture

The architecture of the iLAND middleware consists in two layers. The high level one is the Core Functionality Layer. It is oriented to the management of the real time service model. The low layer creates bridges to the system resources and the network resources in order to provide the real time operation. Each of these layers contain different software components

iLAND middleware architecture

The middleware architecture is further explained in [3] where the reconfiguration mechanism of the middleware is also explained.

Partners

  • Universidad Carlos III de Madrid (http://www.it.uc3m.es/drequiem): solid background and experience in building efficiency and real-time techniques into middleware for real-time distributed systems.
  • Universidade do Porto (http://www.fe.up.pt): industrial communication, distributed embedded systems, embedded control, distributed computer control systems and autonomous mobile robotics.
  • Universidad del País Vasco (http://www.ehu.es): solid background and experience in the design of distributed industrial control systems.
  • University of Twente (http://www.ewi.utwente.nl/): integration of technology-based research and its application in specific domains.
  • University of Pennsylvania (http://www.cis.upenn.edu/): the main goal is assure and improve the correctness, safety and timeliness of real-time embedded systems and Cyber Physical Systems.
  • Visual Tools S.A. (http://www.visual-tools.com): Digital media applications.
  • ETIC (http://www.embedded-technologies.org): Embedded systems.
  • Trialog (http://www.trialog.com): Real-time and embedded systems.
  • Twente Institute for Wireless and Mobile Communications B.V (http://www.ti-wmc.nl).: has a state-of-the-art research focus on leading edge communication network technology.

Demonstrators

Different demonstrators have been developed in the iLAND project. They cover different domains:

  • Wireless Applications for Public Transportation
  • Video Surveillance
  • Health Care Applications

References

  1. ^ http://www.iland-artemis.org
  2. ^ Marga Marcos. "Transferimos tecnología a las empresas". Cinco Días. (Spanish)
  3. ^ Marisol García Valls, I. Rodríguez López, L. Fernández Villar. iLAND: An Enhanced Middleware for Real-Time Reconfiguration of Service Oriented Distributed Real-Time Systems. IEEE Transactions on Industrial Informatics

External links

Official website

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