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Program Call 2008

Total number of projects: 12
Total number of partners: 226
Total National Funding: 59288747.47
Total EU Funding: 33250377.75
Countries (25): Austria
Belgium
Czech Republic
Denmark
Estonia
Finland
France
Germany
Greece
Hungary
Ireland
Italy
Latvia
Lithuania
Netherlands
Norway
Portugal
Russian Federation
Slovenia
Spain
Sweden
Switzerland
Turkey
United Kingdom
United States

Project Project Summary

Projects

Program Call: ART Call 2008: 100008
Project Leader: Magda Balerna
Domain
Technology: ASP8
Website: www.cammi.eu

Program Call: ART Call 2008: 100016
Project Leader: Josef Affenzeller
Domain
Technology: ASP1
Website: www.cesarproject.eu

Program Call: ART Call 2008: 100039
Project Leader: Scott Hansen
Domain
Technology: ASP1
Website: charterproject.ning.com

Program Call: ART Call 2008: 100022
Project Leader: Scott Hansen
Domain
Technology: ASP1
Website: chess-project.ning.com

Program Call: ART Call 2008: 100012
Project Leader: Rafael Socorro
Domain
Technology: ASP7
Website: www.artemis-ediana.eu

Program Call: ART Call 2008: 100036
Project Leader: Délio Almeida
Domain
Technology: ASP3
Website: www.artemis-emmon.eu

Program Call: ART Call 2008: 100026
Project Leader: Francisco Gomez-Molinero
Domain
Technology
Website: www.iland-artemis.org

Program Call: ART Call 2008: 100021
Project Leader: Andreas Eckel
Domain
Technology
Website: www.indexys.eu

Program Call: ART Call 2008: 100029
Project Leader: Frans Theeuwen
Domain
Technology
Website: www.scalopes.eu

Program Call: ART Call 2008: 100032
Project Leader: Evangelos Ladis
Domain
Technology
Website: www.artemis-smart.eu

Program Call: ART Call 2008: 100017
Project Leader: Petri Liuha
Domain
Technology
Website: www.sofia-project.eu

Program Call: ART Call 2008: 100035
Project Leader: Ivan Ring Nielsen
Domain
Technology
Website: www.sysmodel.eu

Summary

CAMMI		The man in the control loop of a complex system is exposed to physiological, psychological and time stresses that lead to a human cognitive decrement, thus diminishing the performance and safety of the overall system. Adaptive cognitive man-machine interfaces and human-centred communication can be exploited to raise operational levels.
CESAR		CESAR targets significant reduction of overall development time and effort, between 30% and 50%, using a Reference Technology Platform (RTP). The aim is, within 5 years, to double the number of European technology providers and SMEs joining the CESAR ecosystem and reduce by 50% the cost of integration, configuration, deployment, and maintenance of tool-chains.
CHARTER		CHARTER will develop concepts, methods, and tools for embedded system design and deployment that master complexity and substantially improve the development, verification and certification of critical systems.
CHESS		CHESS aims to build modelling languages for extra-functional properties, and develop tools for evaluation of these properties of component contracts. It will adapt component infrastructures for the integration of real-time and dependable patterns, and validate the approach through multi-domain case studies.
eDIANA		To enable sustainable urban life, eDIANA targets rationalization of the use of resources while increasing comfort by means of embedded systems technologies in residential and commercial buildings. To achieve greater efficiency in use of resources, it aims at prioritizing energy use, more flexibility in the provision of resources and better situation awareness for the citizen and for service and infrastructure owners.
EMMON		EMMON will perform technological research of new, efficient, and low-power consumption communication protocols, embedded middleware with better overall energy-efficiency, fault-tolerance and reliability for large scale monitoring, remote command & control operational systems for end-users and development of network planning and deployment tools to facilitate and assist those same deployments. The quantified goal of the project is to create an integrated framework of technologies for large scale and dense wireless sensor networks that allow effective monitoring for more than 10,000 devices. This would advance WSN deployment size by one order of magnitude. The EMMON project is preparing the final demonstrator to show the real world example of the EMMON technology. Due to external factors this will be shown to the ARTEMIS Project Officer and invited experts at the end of May 2012
iLAND		iLAND will develop enabling technologies for modular, component-based middleware for networked systems that demand deterministic, dynamic functional composition and reconfiguration. Its results embrace a lightweight middleware architecture offering deterministic services and QoS-based resource management, and an approach for modelling deterministic, dynamic reconfiguration and composition of applications, with validation through three application demonstrators.
INDEXYS		INDEXYS will develop a cross-domain instantiation of the GENESYS embedded system architecture, for Industrial-grade exploitation on real-world platforms in Railway, Aerospace, Automotive and Industrial Control domains.
SCALOPES		SCALOPES’ objective is to enable an industrially sustainable path for the evolution of low-power, multi-core computing platforms, for application domains with strategic value for European competitiveness.
SMART		SMART will create an innovative WSN infrastructure based on both off-the shelf reconfigurable devices (FPGAs) and specially designed Reconfigurable Application Specific Instruction Set Processors (RASIPs). This infrastructure will support video and data compression as well as high-levels of security with lower power consumption than existing solutions.
SOFIA		SOFIA will create an Open Innovation Platform (OIP) providing the interoperability that allows interaction between multi-vendor devices. For this, it will create interaction models and embedded devices that support a variety of “smart spaces” and a variety of users, and develop methods, techno-economic structures and toolkits for the deployment of smart environments and for the development of services and applications based on them. It will also define scenarios to demonstrate the capabilities of the OIP in personal spaces, indoor spaces and cities.
SYSMODEL		SYSMODEL will develop supportive modelling tools for the design and implementation of time and power critical heterogeneous systems. The focus is on reuse of existing models and their integration in a heterogeneous system. The vision is to allow SMEs to build cost-efficient ambient intelligence systems with optimal performance, high confidence, reduced time to market and faster deployment.