OPTIMISED | Operational Planning Tool Interfacing Manufacturing Integrated Simulations with Empirical Data

Summary

OPTIMISED aims to develop novel methods and tools for deployment of highly optimised and reactive planning systems that incorporate extensive factory modelling and simulation based on empirical data captured using smart embedded sensors and pro-active human-machine interfaces. The impact of energy management on factory planning and optimisation will be specifically assessed and demonstrated to reduce energy waste and address peak demand so that operations that require or use less energy, can allow this excess energy to be re-routed to local communities.

The OPTIMISED environment will use semantically enriched process modelling, big-data generation, capture and perform analytics to effectively support planning specialists, manufacturing engineers, team leaders and shopfloor operatives throughout the systems lifecycle. These next generation manufacturing systems supported by data rich manufacturing execution systems with OPTIMISED technology will support a dramatic improvement in system performance, improved operational efficiency and equipment utilisation, real-time equipment and station performance monitoring, adaptation and resource optimisation.

The OPTIMISED vision will be achieved by developing systems which are able to:

  1. Monitor system performance through an integrated sensor network, automatically detecting bottlenecks, faults and performance drop-off
  2. Continuously evolve to respond to disruptive events, supply chain disruptions and non-quality issues through factory simulation modelling
  3. Improve understanding and monitoring of energy demand curve and energy usage per industrial process and globally improve efficiency of production line through reduced energy waste
  4. Understand potential benefits, added value and impacts of participating in Demand Side Response (DSR) processes and becoming an active player in the changing energy industry, instead of remaining a conventional passive element that simply acquires a service from energy providers
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More information & hyperlinks
Web resources: https://www.optimised-h2020.eu/
https://cordis.europa.eu/project/id/680515
Start date: 11-01-2015
End date: 31-10-2018
Total budget - Public funding: 7 012 638,00 Euro - 7 012 637,00 Euro
Cordis data

Original description

OPTIMISED aims to develop novel methods and tools for deployment of highly optimised and reactive planning systems that incorporate extensive factory modelling and simulation based on empirical data captured using smart embedded sensors and pro-active human-machine interfaces. The impact of energy management on factory planning and optimisation will be specifically assessed and demonstrated to reduce energy waste and address peak demand so that operations that require or use less energy, can allow this excess energy to be re-routed to local communities. The OPTIMISED environment will use semantically enriched process modelling, big-data generation, capture and perform analytics to effectively support planning specialists, manufacturing engineers, team leaders and shopfloor operatives throughout the systems lifecycle. These next generation manufacturing systems supported by data rich manufacturing execution systems with OPTIMISED technology will support a dramatic improvement in system performance, improved operational efficiency and equipment utilisation, real-time equipment and station performance monitoring, adaptation and resource optimisation.

The OPTIMISED vision will be achieved by developing systems which are able to:
1. Monitor system performance through an integrated sensor network, automatically detecting bottlenecks, faults and performance drop-off
2. Continuously evolve to respond to disruptive events, supply chain disruptions and non-quality issues through factory simulation modelling
3. Improve understanding and monitoring of energy demand curve and energy usage per industrial process and globally improve efficiency of production line through reduced energy waste
4. Understand potential benefits, added value and impacts of participating in Demand Side Response (DSR) processes and becoming an active player in the changing energy industry, instead of remaining a conventional passive element that simply acquires a service from energy providers

Status

CLOSED

Call topic

FoF-08-2015

Update Date

27-10-2022
Geographical location(s)
Structured mapping
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Factories of the Future Partnership - Made in Europe Partnership

H2020 - Factories of the Future
H2020-FoF-2015
FoF-08-2015 ICT-enabled modelling, simulation, analytics and forecasting technologies
Research & Innovation Action (RIA)
Autonomous Smart Factories Pathway
Connected IT and OT
IoT enabled SCADA, MOM-MES, ERP (…) connectivity
Humans actively connected
Off-line optimisation
Economic sustainability
Product quality - Quality assurance
Lead time
Environmental sustainability
Waste minimisation
Reducing the consumption of energy
Information and communication technologies
Data collection, storage, analytics, processing and AI
Engineering tools
System modelling - digital twins, simulation
Horizon 2020
H2020-EU.2. INDUSTRIAL LEADERSHIP
H2020-EU.2.1. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies
H2020-EU.2.1.1. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Information and Communication Technologies (ICT)
H2020-EU.2.1.1.0. INDUSTRIAL LEADERSHIP - ICT - Cross-cutting calls
H2020-FoF-2015
FoF-08-2015 ICT-enabled modelling, simulation, analytics and forecasting technologies
H2020-EU.2.1.5. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Advanced manufacturing and processing
H2020-EU.2.1.5.1. Technologies for Factories of the Future
H2020-FoF-2015
FoF-08-2015 ICT-enabled modelling, simulation, analytics and forecasting technologies