Projects overview
CoLLaboratE | Co-production CeLL performing Human-Robot Collaborative AssEmbly
01-10-2018
-31-03-2022
HR-Recycler | Hybrid Human-Robot RECYcling plant for electriCal and eLEctRonic equipment
01-12-2018
-30-11-2022
FIT4FoF | Making our Workforce Fit for the Factory of the Future
01-10-2018
-31-12-2021
SYNTECS | SustainablY aNd digiTally driven hiErarchical laser texturing for Complex Surfaces
01-12-2022
-30-11-2025
METAMORPHA | Made-to-measure micromachining with laser beams tailored in amplitude and phase
01-09-2022
-31-08-2026
OPTIMAL | Automated Maskless Laser Lithography Platform for First Time Right Mixed Scale Patterning
01-10-2022
-30-09-2026
Fluently | Fluently - the essence of human-robot interaction
01-06-2022
-31-05-2025
FLOIM | Flexible Optical Injection Moulding of optoelectronic devices
01-09-2018
-31-08-2022
ROSSINI | RObot enhanced SenSing, INtelligence and actuation to Improve job quality in manufacturing
01-10-2018
-31-03-2022
Concerning standardization, the ROSSINI project defined a roadmap of activities based on three pillars:
- Training and knowledge sharing among standards and best practice on HRC application (both internally and externally the ROSSINI consortium)
- Participation in working groups to bring the knowledge and experience acquired during the development of the ROSSINI project
- Active contribution to standardization.
SWARMs | Smart and Networking UnderWAter Robots in Cooperation Meshes
01-07-2015
-31-07-2018
CloudiFacturing | Cloudification of Production Engineering for Predictive Digital Manufacturing
01-10-2017
-30-09-2021
Z-BRE4K | Strategies and Predictive Maintenance models wrapped around physical systems for Zero-unexpected-Breakdowns and increased operating life of Factories
01-10-2017
-31-03-2021
The Z-Break solution uses a variety of communication protocols. HTTP, OPC-UA, IEEE 802.15.4e and IEC WirelessHART. The Hypertext Transfer Protocol (HTTP) is an application protocol for distributed, collaborative, hypermedia information systems. HTTP is the foundation of data communication for the World Wide Web. OPC UA supports two protocols. The binary protocol is opc.tcp://Server and http://Server is for Web Service. Otherwise OPC UA works completely transparent to the API. IEEE 802.15.4 is a technical standard which defines the operation of low-rate wireless personal area networks (LR-WPANs). It specifies the physical layer and media access control for LR-WPANs, and is maintained by the IEEE 802.15 working group, which defined the standard in 2003. WirelessHART is a wireless sensor networking technology based on the Highway Addressable Remote Transducer Protocol (HART). Developed as a multi-vendor, interoperable wireless standard, WirelessHART was defined for the requirements of process field device networks. Also, it uses the NGSI protocol. NGSI is a protocol developed to manage Context Information. It provides operations like managing the context information about context entities, for example the lifetime and quality of information and access (query, subscribe/notify) to the available context Information about context Entities.
The Foresee Cluster Roadmap document includes section 5 on ‘Standardization aspects of Predictive Maintenance’ and ANNEX I ‘Standards application in ForeSee projects’:
- Standardisation Overview
- Views on Maintenance standards and Predictive Maintenance
- Maintenance terminology
- Evaluation of Standards
- Future Activities
Repro-light | Re-usable and re-configurable parts for sustainable LED-based lighting systems
01-10-2017
-30-09-2020
AMable | AdditiveManufacturABLE
01-09-2017
-30-11-2022
MouldTex | FRICTION OPTIMISATION OF SEALS THROUGH ADVANCED LASER SURFACE TEXTURING OF MOULDS
01-11-2017
-30-04-2021
CAPRI | Cognitive Automation Platform for European PRocess Industry digital transformation
01-04-2020
-30-09-2023
LASER4SURF | LASER FOR MASS PRODUCTION OF FUNCTIONALISED METALLIC SURFACES
01-10-2017
-31-03-2021
UPTIME | UNIFIED PREDICTIVE MAINTENANCE SYSTEM
01-09-2017
-28-02-2021
The standardisation goal in UPTIME is to simplify the integration of the components in the the UPTIME Platform and to make easier the integration of the UPTIME Platform in new industrial environments.
Below list of some relevant standards to UPTIME:
- IEC 62541 (OPC-UA) and ISO/IEC 20922 (MQTT) for Modular Edge Data Collection & Diagnosis - also JSON, XML, MSGPACK, I2C, SPI
- IEEE 802.15.4 for low rate personal area networks
- ISO 13374, MIMOSA OSA-CBM and OSA - EAI for Mapping, Extraction and Analysis of Legacy DB, Configurable Diagnosis, Configurable Prognosis, Prescriptive Analytics for Proactive Decision Making
- IEC 60812 FMEA and FMECA for Maintenance Actions Parametrization and Management interface
- EN 13306 for common maintenance terminology
- ISO 17359 for condition monitoring and diagnostics on machine
- ISO 13373 for vibration monitoring, ISO 18435, ISO 10303, ISO 15926 for interoperability
- ISO 14224 for maintenance data in oil and gas
The Foresee Cluster Roadmap document includes section 5 on ‘Standardization aspects of Predictive Maintenance’ and ANNEX I ‘Standards application in ForeSee projects’:
- Standardisation Overview
- Views on Maintenance standards and Predictive Maintenance
- Maintenance terminology
- Evaluation of Standards
- Future Activities
Open Platform Communication Unified Architecture (OPC-UA) is considered for UPTIME platform and for modular edge data collection and diagnosis of UPTIME_SENSE component.
I4MS-Go | I4MS Going to Market Alliance
01-09-2017
-29-02-2020
PreCoM | Predictive Cognitive Maintenance Decision Support System
01-11-2017
-28-02-2021
The Foresee Cluster Roadmap document includes section 5 on ‘Standardization aspects of Predictive Maintenance’ and ANNEX I ‘Standards application in ForeSee projects’:
- Standardisation Overview
- Views on Maintenance standards and Predictive Maintenance
- Maintenance terminology
- Evaluation of Standards
- Future Activities
L4MS | Logistics for Manufacturing SMEs
01-10-2017
-31-03-2021
SERENA | VerSatilE plug-and-play platform enabling remote pREdictive mainteNAnce
01-10-2017
-31-03-2021
The Foresee Cluster Roadmap document includes section 5 on ‘Standardization aspects of Predictive Maintenance’ and ANNEX I ‘Standards application in ForeSee projects’:
- Standardisation Overview
- Views on Maintenance standards and Predictive Maintenance
- Maintenance terminology
- Evaluation of Standards
- Future Activities
MIDIH | Manufacturing Industry Digital Innovation Hubs
01-10-2017
-30-09-2020
The major goal of INTEGRADDE was to develop a novel end-to-end solution capable of demonstrating the potential of Directed Energy Deposition (DED) processes for the manufacturing of certified large metal components in strategic metalworking sectors. The project is focused on additive manufacturing, specifically laser metal deposition. This technology requires validation, and the compatibility of various pieces in the manufacturing process must be verified under real-world situations. Standardization, therefore, has great significance. The case study demonstrates the need for adequate planning of resources for standardisation as well as the requirement to provide project partners who are unfamiliar with standards and standardisation with training. Two obstacles stand out: first, the distinct nature and timetables of standardisation processes from those of research, and second, the apparent conflict between IP protection and the requirement for openness during the standardisation process. Nevertheless, the use of standards/standardisation seeks to help increase quality and reliability in the specific AM process.