SCOTT | Secure COnnected Trustable Things
01-05-2017
-31-10-2020
01-05-2017
-31-10-2020
01-01-2019
-31-07-2022
Overview of standards and compliance associated to demonstrators (pilots)
Associated to QU4LITY Reference Architecture: Corporate Network/ Production OT Access Network: Deterministic Ethernet (TSN), OPC-UA, IDS/NGSI-LD
Details: OPC UA: an industrial M2M communication protocol for Interoperability; Information modelling
01-01-2019
-30-06-2023
01-01-2019
-31-12-2022
EFPF ensured that the Factory platform complies with the General Data Protection Regulation (GDPR). Aligning project objectives and activities with existing laws and standards is a crucial component of EFPF. In order to ease data sharing and standardisation procedures, it also engages in significant engagements with national and European regulation and standardisation organisations on smart industrial automation, data processing, and analytics. The question of which of the increasingly overlapping standards to use as a reference for every particular platform solution confronts researchers and technicians at EFPF. This is a typical issue in any field where standards are in conflict or overlap.
The strategy used by EFPF is to closely monitor the development of various standardisation initiatives. With the assistance of experts (like ASI, a core partner of EFPF), RTD activities are aligned with ongoing standardisation activities with the goal of adopting existing standards and, when possible, contributing to their development. Based on the nature of technical activities in WP3 to WP7, the following aspects of EFPF are considered relevant to the ongoing standardisation and regulation activities:
01-10-2018
-31-03-2022
01-10-2018
-31-03-2023
01-10-2018
-31-03-2023
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.
01-11-2019
-30-04-2023
01-12-2019
-31-05-2022
01-01-2020
-31-12-2023
The DigiPrime project aims to address the issue of poor data and knowledge exchange among value chain stakeholders and sectors, which hinders cross-sectoral circular economy opportunities and limits the uptake of reusable materials by end customers. To solve this problem, the project is developing a digital platform concept that aims to overcome the current information asymmetry among value chain stakeholders. The project's main goal is to unlock new circular business models by focusing on the data-enhanced recovery and reuse of functions and materials from high-value-added post-use products as the foundation of its platform.
To achieve this, the project has planned standardization activities that cover two complementary aspects:
By doing so, the project aims to promote consistency in the circular economy and improve the efficiency of data and knowledge exchange among value chain stakeholders.
01-01-2020
-31-12-2023
01-12-2019
-30-11-2022
01-09-2019
-30-11-2022
15-10-2019
-14-10-2022
17-12-2018
-30-06-2022
01-11-2015
-31-10-2017
01-05-2015
-31-07-2018
01-06-2017
-31-05-2020
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:
The Foresee Cluster Roadmap document includes section 5 on ‘Standardization aspects of Predictive Maintenance’ and ANNEX I ‘Standards application in ForeSee projects’:
Open Platform Communication Unified Architecture (OPC-UA) is considered for UPTIME platform and for modular edge data collection and diagnosis of UPTIME_SENSE component.
01-10-2017
-31-03-2021
01-10-2017
-30-09-2020
01-09-2017
-30-11-2022
01-11-2017
-30-04-2021
QU4LITY project addresses a standardization strategy for zero-defect production. This project resolves missing or overlapping elements in various ZDM standardisation areas. The standards study makes use of the most recent findings from Task T9.2 regarding present-day activities and stakeholders in relation to the identified standardised ecosystem. In order to provide reliable solutions QU4LITY supports compliance with the five relevant cross-cutting standardised domains, QU4LITY conducts pilots on the most appropriate standard usage. All specifications aim at providing helpful recommendations for use for affected pilots:
1. Compliance Specification for Interoperability Standards
2. Compliance Specification for Safety and Security Standards
3. Compliance Specification for Artificial Intelligence Standards
4. Compliance Specification for Quality Standards
5. Compliance Specification for Reference Architecture Standards, Reference
Architecture Standards, Digital Models and Vocabularies