MANUWORK | Balancing Human and Automation Levels for the Manufacturing Workplaces of the Future
01-10-2016
-31-03-2020
01-10-2016
-31-03-2020
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 UPTIME conceptual architecture was designed according to the ISO/IEC/IEEE 42010 “System and software engineering – Architecture description” and mapped to RAMI 4.0 in order to ensure that it can be represent predictive maintenance in the frame of Industry 4.0.
The UPTIME vision converges and synthesizes predictive maintenance, proactive computing, the Gartner’s levels of industrial analytics maturity and the ISO 13374 as implemented in MIMOSA OSA-CBM in order to create a consistent basis for a generic predictive maintenance architecture in an IoT-based industrial environment. In this way, the Operational Technology and the Information Technology can also be converged in the context of Industry 4.0.
01-11-2017
-28-02-2021
01-01-2019
-31-07-2022
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
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
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
There was a risk that other developments made within this pilot do not follow the reference architecture of IDS and thus are incompatible. This would cause that certain applications could not be deployed and run within in the proposed data space approach.
01-01-2019
-31-12-2022
01-01-2019
-30-06-2023
01-05-2019
-31-07-2022
Check video at 48:05 and 1:51:04 (translation system)
01-01-2020
-31-12-2023
Interoperability (sharing of data and resources between different systems)
01-10-2019
-30-09-2023
01-11-2019
-31-10-2023
01-12-2019
-31-05-2022
01-11-2019
-30-04-2023
01-11-2018
-30-04-2022
M4.0 metal domain addresses the BUSINESS LAYER of the vertical side of RAMI and the ENTERPRISE and CONNECTED WORLD layers of the hyerarchical side
Used components:
IDS connectors for data provider, data consumer ; Clearing house ; Broker
ATS Bus - Enabled a single, common service bus for data exchange between the PLCs and other high level components of the system, including a SCADA system. Used a broker-based publish-subscribe approach to decouple the physical sources and destinations of the data to facilitate reconfigurability.
Nservicebus - The underlying technology which enabled the ATS Bus to exchange data.
OPC UA (Kepware) – Many devices could not interface directly with the service bus, so OPC UA was used to extract data and publish it to the service bus.
B2MML – Business to Manufacturing Mark-up Language. Data standard used to define the process (i.e. the set of operations to be carried out by the cell for each unique product), what resources are required for each process, the materials needed and more. The full process would be designed by engineers, and then the SCADA would break the ‘master’ B2MML process representation into sub-processes and send these to the resources via the service bus. These would then trigger the start of processes by the PLCs.
B2MML – Business to Manufacturing Mark-up Language. Data standard used to define the process (i.e. the set of operations to be carried out by the cell for each unique product), what resources are required for each process, the materials needed and more. The full process would be designed by engineers, and then the SCADA would break the ‘master’ B2MML process representation into sub-processes and send these to the resources via the service bus. These would then trigger the start of processes by the PLCs.
ATS Bus - Enabled a single, common service bus for data exchange between the PLCs and other high level components of the system, including a SCADA system. Used a broker-based publish-subscribe approach to decouple the physical sources and destinations of the data to facilitate reconfigurability.
Nservicebus - The underlying technology which enabled the ATS Bus to exchange data.
OPC UA (Kepware) – Many devices could not interface directly with the service bus, so OPC UA was used to extract data and publish it to the service bus.
B2MML – Business to Manufacturing Mark-up Language. Data standard used to define the process (i.e. the set of operations to be carried out by the cell for each unique product), what resources are required for each process, the materials needed and more. The full process would be designed by engineers, and then the SCADA would break the ‘master’ B2MML process representation into sub-processes and send these to the resources via the service bus. These would then trigger the start of processes by the PLCs.
B2MML – Business to Manufacturing Mark-up Language. Data standard used to define the process (i.e. the set of operations to be carried out by the cell for each unique product), what resources are required for each process, the materials needed and more. The full process would be designed by engineers, and then the SCADA would break the ‘master’ B2MML process representation into sub-processes and send these to the resources via the service bus. These would then trigger the start of processes by the PLCs.
01-10-2022
-30-09-2026
01-09-2022
-31-08-2025