Explore the words cloud of the openMOS project. It provides you a very rough idea of what is the project "openMOS" about.
The following table provides information about the project.
INTROSYS-INTEGRATION FOR ROBOTIC SYSTEMS-INTEGRACAO DE SISTEMAS ROBOTICOS SA
|Coordinator Country||Portugal [PT]|
|Total cost||8˙672˙509 €|
|EC max contribution||6˙368˙790 € (73%)|
1. H2020-EU.22.214.171.124. (Technologies for Factories of the Future)
|Duration (year-month-day)||from 2015-10-01 to 2019-01-31|
Take a look of project's partnership.
|1||INTROSYS-INTEGRATION FOR ROBOTIC SYSTEMS-INTEGRACAO DE SISTEMAS ROBOTICOS SA||PT (QUINTA DO ANJO)||coordinator||813˙812.00|
|2||LOUGHBOROUGH UNIVERSITY||UK (LOUGHBOROUGH)||participant||719˙250.00|
|3||Elrest Automationssysteme GmbH||DE (Kirchheim / Teck)||participant||542˙500.00|
|4||KUNGLIGA TEKNISKA HOEGSKOLAN||SE (STOCKHOLM)||participant||462˙500.00|
|5||UNINOVA-INSTITUTO DE DESENVOLVIMENTO DE NOVAS TECNOLOGIAS-ASSOCIACAO||PT (CAPARICA)||participant||448˙750.00|
|6||FORTISS GMBH||DE (MUNCHEN)||participant||446˙416.00|
|7||LINKOPINGS UNIVERSITET||SE (LINKOPING)||participant||425˙000.00|
|8||WE PLUS SPA||IT (ORBASSANO TO)||participant||417˙927.00|
|9||ASYS AUTOMATISIERUNGSSYSTEME GMBH||DE (Dornstadt)||participant||395˙500.00|
|10||MASMEC SPA||IT (MODUGNO)||participant||382˙725.00|
|11||HSSMI LIMITED||UK (RAINHAM)||participant||369˙865.00|
|12||SENSEAIR AB||SE (DELSBO)||participant||344˙400.00|
|13||INOTEC LTD||UK (HOCKLEY ESSEX)||participant||254˙625.00|
|14||FORD MOTOR COMPANY LIMITED||UK (BRENTWOOD)||participant||182˙769.00|
|15||ELECTROLUX ITALIA SPA||IT (PORCIA)||participant||162˙750.00|
|16||AFAG AUTOMATION AG||CH (Huttwil)||participant||0.00|
|17||CENTRE FOR ENGINEERING AND MANUFACTURING EXCELLENCE LTD LBG||UK (RAINHAM)||participant||0.00|
Higher agility for the European Manufacturing Industry is the main MOTIVATION for the openMOS project. While automated systems are appealing to achieve high productivity and quality requirements, their sensitivity to change is becoming increasingly a bottleneck to substantial reduction of lot sizes and more frequent change-overs. The project VISION is to enable full economic sustainability of the production systems based on intelligent modular plug-and-produce equipment. To achieve this, it is focusing on three main innovation strands: 1) embedding plug-and-produce capabilities into automation devices, robots and machines, 2) enabling vertical and horizontal connectivity between plug-and-produce automation components and higher level control and business functions, and 3) creating a easily extendable and adaptable manufacturing operating system (MOS) that permits the easy introduction of new products, work orders and changes in the equipment and allows easy deployment of optimisation and changeover management strategies. The targeted INNOVATION is a common, openly accessible plug-and-produce system platform which allows all stakeholders in the automation system value chain to come together and jointly develop and exploit solutions. Therefore, the project is proposing to integrate well established plug-and-produce system concepts from many years of research in this field, into industrial-relevant technology platforms which have emerged in recent years. As the vast majority of components/ devices/ machine manufacturers and system integrators are SMEs, plug-and-produce can only be achieved by placing specific SME requirements at the forefront: solutions by, and for, SMEs. The RTD approach will be driven by proposed industrial scenarios and pilot implementations which will be carried out to systematically test and validate the readiness of the targeted exploitable results in three key industrial sectors (white goods, automotive and electronics).
|Validation Results||Documents, reports||2020-04-06 09:49:56|
|openMOS Output Matrix||Documents, reports||2020-04-06 09:49:56|
|Public Newsletter||Websites, patent fillings, videos etc.||2020-04-06 09:49:56|
|Report on Training Activities||Documents, reports||2020-04-06 09:49:56|
|Open Plug-and-Produce Architecture (Whitepaper)||Documents, reports||2020-04-06 09:49:56|
|TRL7 validation of flexible sensor assembly system pilot||Demonstrators, pilots, prototypes||2020-04-06 09:49:56|
|Open Plug and Produce Architecture Specification||Documents, reports||2020-04-06 09:49:56|
|Open System Platform||Documents, reports||2020-04-06 09:49:55|
|Assessment of current service bus technologies||Other||2020-04-06 09:49:56|
|Detailed Review and Evaluation of Relevant Standardi-sation Activities Report||Documents, reports||2020-04-06 09:49:55|
|Public Website||Other||2020-04-06 09:49:55|
|Standardisation Activities Mid-Term Report||Documents, reports||2020-04-06 09:49:55|
|Open Plug-and-Produce Manufacturing Service Bus||Other||2020-04-06 09:49:56|
|Industrial Requirements for Plug-and-Produce Systems and Components||Documents, reports||2020-04-06 09:49:55|
|Plug&produce automation device specification||Documents, reports||2020-04-06 09:49:55|
|Assessment of the current semantic model technologies||Documents, reports||2020-04-06 09:49:55|
|Project Flyer||Websites, patent fillings, videos etc.||2020-04-06 09:49:55|
|Specification of large simulation demonstrator||Documents, reports||2020-04-06 09:49:55|
|White Paper â€“ openMOS Development Platform for Plug&Produce Automation Components||Documents, reports||2020-04-06 09:49:55|
|Finally public test and validation report for all demonstrators||Documents, reports||2020-04-06 09:49:55|
|TRL6 Verification of large simulated system||Demonstrators, pilots, prototypes||2020-04-06 09:49:55|
|Open Innovation Plug&Produce Component Business Model||Documents, reports||2020-04-06 09:49:55|
|Embedded Skill Executor and self-adaptation core||Other||2020-04-06 09:49:55|
|Performance Metrics and Monitoring Framework Specifications||Documents, reports||2020-04-06 09:49:55|
|Open plug&produce device adaptor prototype||Other||2020-04-06 09:49:55|
|TRL7 validation of energy optimised engine assembly line pilot||Demonstrators, pilots, prototypes||2020-04-06 09:49:55|
|TRL7 validation of rapid changeover moulding system pilot||Demonstrators, pilots, prototypes||2020-04-06 09:49:55|
|Common Semantic Model||Other||2020-04-06 09:49:55|
Take a look to the deliverables list in detail: detailed list of openMOS deliverables.
|year||authors and title||journal||last update|
Kirill Dorofeev, Chih-Hong Cheng, Pedro Ferreira, Magno Guedes, Stefan Profanter and Alois Zoitl
Device Adapter Concept towards Enabling Plug&Produce Production Environments
published pages: , ISSN: , DOI:
|Procc. of the 22nd IEEE International Conference on Emerging Technologies and Factory Automation (ETFA), 2017||2020-04-06|
Pedro Lima-Monteiro, Mafalda Parreira-Rocha, AndrÃ© Dionisio Rocha, Jose Barata Oliveira
Big Data Analysis to Ease Interconnectivity in Industry 4.0â€”A Smart Factory Perspective
published pages: 237-245, ISSN: , DOI: 10.1007/978-3-319-51100-9_21
|Service Orientation in Holonic and Multi-Agent Manufacturing||2020-04-06|
Stefan Profanter, Kirill Dorofeev and Alois Zoitl
OPC UA for Plug&Produce: Automatic Device Discovery using LDS-ME
published pages: , ISSN: , DOI:
Paul Danny, Pedro Ferreira, Magno Guedes and Niels Lohse
An AutomationML Model for Plug-and-Produce Assembly Systems
published pages: , ISSN: , DOI:
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The information about "OPENMOS" are provided by the European Opendata Portal: CORDIS opendata.