Explore the words cloud of the COSSIM project. It provides you a very rough idea of what is the project "COSSIM" about.
The following table provides information about the project.
SYNELIXIS LYSEIS PLIROFORIKIS AUTOMATISMOU & TILEPIKOINONION ANONIMI ETAIRIA
|Coordinator Country||Greece [EL]|
|Total cost||2˙882˙030 €|
|EC max contribution||2˙882˙030 € (100%)|
1. H2020-EU.18.104.22.168. (A new generation of components and systems: Engineering of advanced embedded and energy and resource efficient components and systems)
|Duration (year-month-day)||from 2015-02-01 to 2018-01-31|
Take a look of project's partnership.
|1||SYNELIXIS LYSEIS PLIROFORIKIS AUTOMATISMOU & TILEPIKOINONION ANONIMI ETAIRIA||EL (CHALKIDA)||coordinator||376˙250.00|
|2||MAXELER TECHNOLOGIES LIMITED||UK (LONDON)||participant||483˙750.00|
|3||STMICROELECTRONICS SRL||IT (AGRATE BRIANZA)||participant||416˙900.00|
|4||SEARCH-LAB BIZTONSAGI ERTEKELO ELEMZO ES KUTATO LABORATORIUM KORLATOLT FELELOSSEGU TARSASAG||HU (Budapest)||participant||370˙625.00|
|5||FUNDACION TECNALIA RESEARCH & INNOVATION||ES (DERIO BIZKAIA)||participant||368˙080.00|
|6||CHALMERS TEKNISKA HOEGSKOLA AB||SE (GOETEBORG)||participant||352˙050.00|
|7||TELECOMMUNICATION SYSTEMS INSTITUTE||EL (CHANIA)||participant||274˙375.00|
|8||POLITECNICO DI MILANO||IT (MILANO)||participant||240˙000.00|
One of the main problems the CPS designers face is “the lack of simulation tools and models for system design and analysis”. This is mainly because the majority of the existing simulation tools for complex CPS handle efficiently only parts of a system while they mainly focus on the performance. Moreover, they require extreme amounts of processing resources and computation time to accurately simulate the CPS nodes’ processing. Faster approaches are available, however as they function at high levels of abstraction, they cannot provide the accuracy required to model the exact behavior of the system under design so as to guarantee that it meets the requirements in terms of performance and/or energy consumption. The COSSIM project will address all those needs by providing an open-source framework which will a) seamlessly simulate, in an integrated way, both the networking and the processing parts of the CPS, b) perform the simulations orders of magnitude faster, c) provide much more accurate results especially in terms of power consumption than existing solutions, d) report more CPS aspects than any existing tool including the underlying security of the CPS. COSSIM will achieve the above by developing a novel simulator framework based on a processing simulation sub-system (i.e. a “full-system simulator”) which will be integrated with a novel network simulator. Furthermore, innovative power consumption and security measurement models will be developed and incorporated to the end framework. On top of that, COSSIM will also address another critical aspect of an accurate CPS simulation environment: the performance as measured in required simulation time. COSSIM will create a framework that is orders of magnitude faster, while also being more accurate and reporting more CPS aspects, than existing solutions, by applying hardware acceleration through the use of field programmable gate arrays (FPGAs), which have been proven extremely efficient in relevant tasks.
|Final Integrated COSSIM simulator||Demonstrators, pilots, prototypes||2019-03-08 17:54:36|
|High-level architecture of overall framework||Documents, reports||2019-03-08 17:54:35|
|Design implementation and evaluation (1st increment)||Other||2019-03-08 17:54:35|
|Security evaluation methodology for cyber-physical systems||Documents, reports||2019-03-08 17:54:28|
|Evaluation criteria for measuring COSSIM\'s efficiency||Documents, reports||2019-03-08 17:54:36|
|1st implementation of processing simulator||Other||2019-03-08 17:54:37|
|Final version of integrated processing and network simulator||Demonstrators, pilots, prototypes||2019-03-08 17:25:03|
|1st Integrated (Mainly Software) COSSIM simulator||Documents, reports||2018-12-18 20:22:41|
|Specifications of the full version of test cases (2nd increment)||Documents, reports||2019-03-08 17:51:33|
|Specification of end system (including Network, Power/Energy and Security Sub-Systems)||Documents, reports||2019-03-08 17:25:09|
|Development of simulation configuration and execution monitoring tool||Other||2018-12-18 20:23:02|
|Dissemination strategy and communication activities (final)||Documents, reports||2019-03-08 17:25:11|
|Initial prototype of security and robustness testing platform||Demonstrators, pilots, prototypes||2018-12-18 20:22:27|
|1st integration of porcessing and network simulator||Other||2018-12-18 20:23:18|
|Set of representative COSSIM application domains||Documents, reports||2018-12-18 20:22:59|
|Assessment and analysis of the CPS simulation/emulation market||Documents, reports||2018-12-18 20:22:40|
|Description of the COSSIM hardware platform||Documents, reports||2019-03-08 17:26:11|
|Assessment and analysis of the CPS simulation/emulation market (final)||Documents, reports||2019-03-08 17:26:12|
|Security modelling of the COSSIM framework||Documents, reports||2019-03-08 17:25:18|
|1st implementation of network simulator||Other||2018-12-18 20:22:58|
|Design implementation and evaluation (2nd increment)||Demonstrators, pilots, prototypes||2019-03-08 17:25:13|
|Final prototype of security and robustness testing platform||Demonstrators, pilots, prototypes||2018-12-18 20:22:58|
|COSSIM WEB site||Demonstrators, pilots, prototypes||2019-03-08 17:25:58|
|Analysis of the COSSIM simulator||Documents, reports||2018-12-18 20:22:58|
|Specifications of the initial test cases (1st increment)||Documents, reports||2018-12-18 20:22:40|
|Dissemination strategy and communication activities||Documents, reports||2018-12-18 20:23:05|
Take a look to the deliverables list in detail: detailed list of COSSIM deliverables.
|year||authors and title||journal||last update|
Marco Marcon, Augusto Sarti, Stefano Tubaro
Toothbrush motion analysis to help children learn proper tooth brushing
published pages: 34-45, ISSN: 1077-3142, DOI: 10.1016/j.cviu.2016.03.009
|Computer Vision and Image Understanding 148||2019-05-30|
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