Decentralised architectures for optimised operations via virtualised processes and manufacturing ecosystem collaboration

Full project page
Decentralised architectures for optimised operations via virtualised processes and manufacturing ecosystem collaboration

Reducing the consumption of energy, while increasing the usage of renewable energy

General description

Efficient energy use, sometimes simply called energy efficiency, is the goal to reduce the amount of energy required to provide products and services. (from https://en.wikipedia.org/wiki/Efficient_energy_use)


Specifics for Project DISRUPT | Decentralised architectures for optimised operations via virtualised processes and manufacturing ecosystem collaboration

Description It will be cloud-based to accommodate the anticipated high data volume and computational needs, while offering accessibility via any device anywhere in the world.
Organisation THE UNIVERSITY OF MANCHESTER
 D2.4: Validation and Improvement of KPIs for the DISRUPT environment Result title D2.4: Validation and Improvement of KPIs for the DISRUPT environment
 Periodic Reporting for period 1 - DISRUPT (Decentralised architectures for optimised operations via virtualised processes and manufacturing ecosystem collaboration) Result description To achieve improved resource consumption profile for processes and products arising from resource-aware optimisation, situational awareness enabled by IoT and CPS and co-simulation allowing more proactive
 Reducing the consumption of energy, while increasing the usage of renewable energy Taxon title Reducing the consumption of energy, while increasing the usage of renewable energy Taxon description Efficient energy use, sometimes simply called energy efficiency, is the goal to reduce the amount of energy required to provide products and services.
 Factory Equipment/Field Device Comments industrial cases from the automotive and the consumer durables industry and measuring the impact in terms of cost efficiency, time-to-production and resource consumption.