Projects overview
ROSSINI | RObot enhanced SenSing, INtelligence and actuation to Improve job quality in manufacturing
01-10-2018
-31-03-2022
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
FLOIM | Flexible Optical Injection Moulding of optoelectronic devices
01-09-2018
-31-08-2022
FIT4FoF | Making our Workforce Fit for the Factory of the Future
01-10-2018
-31-12-2021
CSA-Industy4.E | Coordination and Support Action for Industry4.E
01-10-2018
-31-03-2021
RebootIoTFactory | Reboot IoT Factory
01-03-2018
-30-04-2021
Clear5G | Converged wireless access for reliable 5G MTC for factories of the future
01-09-2017
-29-02-2020
MADEin4 | Metrology Advances for Digitized ECS industry 4.0
01-04-2019
-30-09-2022
MERGING | Manipulation Enhancement through Robotic Guidance and Intelligent Novel Grippers
01-11-2019
-31-10-2023
SOFTMANBOT | Advanced RoBOTic Technology for Handling SOFT Materials in MANufacturing Sectors
01-10-2019
-31-03-2023
Arrowhead Tools | Arrowhead Tools for Engineering of Digitalisation Solutions
01-05-2019
-31-07-2022
KYKLOS 4.0 | An Advanced Circular and Agile Manufacturing Ecosystem based on rapid reconfigurable manufacturing process and individualized consumer preferences
01-01-2020
-31-12-2023
KYKLOS 4.0 emphasises customisation and circular manufacturing. As a result, the candidate standards were determined in accordance with the following factors: (1) inputs from partners; (2) project requirements; (3) linked EU frameworks; (4) examination of scientific literature; and (5) standards inventory within the project's purview. The partners in KYKLOS 4.0 are interested in adopting standards in a variety of fields, such as digital transformation (such as OneM2M), sector-specific standards for pilots (such as ISO 14971:2019), data exchange and file formats (such as ISO 10303 and HDF5), or higher-level standards like ISO 27001 for information security management systems. The project requirements, acceptance in the worldwide community, comparable projects, or scientific papers were used to evaluate potential standards. Most of the identified standards are complementary and able to produce synergies in their incorporation. However, especially in the area of data exchange different standards suggest different solutions. No discrimination was made in terms of standards or points of origin.
The partners assessed the KYKLOS 4.0 standards and their adoption is continually improved, while the process is being carried out. In task T5.3, the team tried to assess various levels of interoperability in the procedure. Along with task T12.5, which is in charge of tracking the project's standardised context, a survey was started. Meetings with the various project partners were held on a regular basis, and the delivery was developed in line with the standardising framework noted in T12.5. The standards were chosen to be documented in a standardised fashion using the ArchiMate language. A list of other candidate standards that would be interesting to adopt in KYKLOS 4.0 is included in the documentation. Two standards—ISO 10303 and ISO 14048—that are highly pertinent to the scope of KYKLOS 4.0 are already in use by KYKLOS 4.0 pilots. With KYKLOS 4.0, ISO 10303 will be used beyond the CAD domain to prove its function in gathering and facilitating access to data linked to personalised and circular manufacturing. The data's long-term readability in this standard format is one of the issues that merit consideration. Project partners received instructions on how to use ISO 10303. KYKLOS 4.0 collaborates with Small Business Standards (SBS) to facilitate wide acceptance and utilization by the market.
Medical, electronic devices, electronic equipment, and automotive project pilots are already pursuing ISO 10303 (Industrial automation systems and integration — Product data representation and exchange) and ISO 14048 (Life cycle assessment and environmental management). The project currently has a good understanding of relevant standards. Modern algorithms have been used to identify various data reduction approaches, and a comprehensive model for fault relationships has been created. KYKLOS 4.0 will develop toolkits to implement auditing mechanisms.
Interoperability (sharing of data and resources between different systems)
OneM2M is a global partnership project founded in 2012 and constituted by 8 of the world's leading ICT standards development organizations, notably: ARIB, ATIS, CCSA, ETSI, TIA, TSDSI, TTA and TTC.
Scope: IoT and machine-2-machine communciation specifications
SHOP4CF | Smart Human Oriented Platform for Connected Factories
01-01-2020
-31-12-2023
REMODEL | Robotic tEchnologies for the Manipulation of cOmplex DeformablE Linear objects
01-11-2019
-31-10-2023
INEDIT | open INnovation Ecosystems for Do It Together process
01-10-2019
-31-03-2023
DIMOFAC | Digital Intelligent MOdular FACtories
01-10-2019
-31-03-2024
Concerning standardization, the ROSSINI project defined a roadmap of activities based on three pillars: