The embedded systems segment is presently undergoing a disruptive innovation process. Different kinds of systems are connected to each other and systems of systems are formed. Boundaries of application domains are alleviated and ad-hoc connections and interoperability play an increasing role. In the present situation formerly closed systems are forced to be opened up. Traditional single-core processors used as computing resources are running out of business. Multi-core and Many-core processors become available whose exploitation for critical and real-time applications is presently happening unsatisfactorily slow, inefficient and expensive. Summarizing, this means their use in certified or qualified environments is challenging. The objective of the EMC2 project is to foster this change of embedded systems through an innovative and sustainable service-oriented architecture approach for mixed criticality applications in dynamic and changeable real-time environments. It is making the big step from basic research to industrial applications. The Artemis Innovation Pilot Project (AIPP) appears to be the best suited vehicle to provide this quantum leap. The EMC2 project builds on the results of previous Artemis, European and National projects and provides the paradigm shift to a new and sustainable system architecture which is suitable to handle open dynamic systems. The following challenges will be addressed and solutions developed to overcome: Dynamic Adaptability in Open Systems Utilization of expensive system features only as Service-on-Demand in order to reduce the overall system cost. Handling of mixed criticality applications under real-time conditions Scalability and utmost flexibility Full scale deployment and management of integrated tool chains, through the entire life cycle This embedded system approach will force the breakthrough and deployment of Multi-Core technology in almost all application domains where real-time and mixed-criticality are an issue such as Aerospace, Automotive, Railway, Shipping, Medical, Industrial factory automation and therefore strengthen the competitiveness of the European Embedded System industry

Popis česky
V projektu jsou řešeny věstavěné multijádrové systémy pro aplikace se smíšenými bezpečnostními požadavky na kritičnost v dynamických a rychle se měnících prostředích.

Klíčová slova
embedded systems, real-time environments

7H14011

angličtina

Václavek Pavel, prof. Ing., Ph.D. - hlavní řešitel
Husár Adam, Ing., Ph.D. - spoluřešitel
Jurzykowski Michal, Ing. - spoluřešitel
Řezníček Ivo, Ing., Ph.D. - spoluřešitel
Smrž Pavel, doc. RNDr., Ph.D. - spoluřešitel

Středoevropský technologický institut VUT
- odpovědné pracoviště (3.3.2014 - nezadáno)
Výzkumná skupina počítačové grafiky
- interní (3.3.2014 - 31.3.2017)
Ústav počítačové grafiky a multimédií
- spolupříjemce (3.3.2014 - 31.3.2017)
Středoevropský technologický institut VUT
- příjemce (3.3.2014 - 31.3.2017)

ZEMČÍK, P.; JURÁNEK, R.: xx; LBP Detector Training for Matlab. xx. URL: http://www.fit.vutbr.cz/~ijuranek/prods.php?id=477¬itle=1. (Software)
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HUSÁR, A.; BURGET, R.; ČEKAN, O.; PODIVÍNSKÝ, J.; HRUŠKA, T.: xx; Model procesoru roVEX a jeho překladač. xx. URL: https://www.fit.vut.cz/research/product/435/. (Software)
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NOSKO, S.; MUSIL, M.; MUSIL, P.: xx; Funkční vzorek kamery pro snímání a tónování HDR videa. xx. URL: https://www.fit.vut.cz/research/product/520/. (Funkční vzorek)
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MUSIL, M.; MUSIL, P.; JURÁNEK, R.; ZEMČÍK, P.: xx; HW detektor objektů ve videu. xx. URL: https://www.fit.vut.cz/research/product/540/. (Software)
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MUSIL, M.; NOSKO, S.: xx; Software pro pořizování a deghosting HDR snímků. xx. URL: https://www.fit.vut.cz/research/product/536/. (Software)
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NOSKO, S.; MUSIL, M.; MUSIL, P.: xx; Bilateralni filtr pro HDR tone mapping (IP jádro). xx. URL: https://www.fit.vut.cz/research/product/539/. (Software)
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MUSIL, P.; MUSIL, M.; ZEMČÍK, P.; JURÁNEK, R.: xx; VHDL Detector IP Core. xx. URL: http://www.fit.vutbr.cz/units/UPGM/prod/index.php?id=484¬itle=1. (Funkční vzorek)
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NOSKO, S.; MUSIL, M.; MUSIL, P.; ZEMČÍK, P. True HDR camera with bilateral filter based tone mapping. In SCCG '17: Spring Conference on Computer Graphics 2017. Mikulov: Association for Computing Machinery, 2017. p. 1-9. ISBN: 978-1-4503-5107-2.
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ZEMČÍK, P.; MUSIL, P.; MUSIL, M. High Dynamic Range Video. In High Dynamic Range Video, 1st Edition. London: Elsevier Science, 2016. p. 145-154. ISBN: 978-0-12-809477-8.
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Odpovědnost: Václavek Pavel, prof. Ing., Ph.D.