Projects overview
BILASURF | Bio-inspired laser functionalization of complex 3D industrial surfaces
01-01-2023
-31-12-2025
VITAL | InnoVatIve processing Technologies for bio-based foAmed thermopLastics
01-06-2022
-31-05-2025
Waste2BioComp | Converting organic waste into sustainable bio-based components
01-06-2022
-31-05-2025
Grade2XL | Application of Functionally Graded Materials to Extra-Large Structures
01-03-2020
-31-08-2024
Go-DIP | MANAGING DIGITAL INTELLECTUAL PROPERTY IN MANUFACTURING SMES DIGITALIZATION PROCESSES
01-04-2021
-30-04-2022
FACTS4WORKERS | Worker-Centric Workplaces in Smart Factories
01-12-2014
-30-11-2018
SESAME | Secure and Safe Multi-Robot Systems
01-01-2021
-31-12-2023
SYMBIO-TIC | Symbiotic Human-Robot Collaborative Assembly: Technologies, Innovations and Competitiveness
01-04-2015
-31-03-2019
ForZDM | Integrated Zero Defect Manufacturing Solution for High Value Adding Multi-stage Manufacturing systems
01-10-2016
-31-03-2021
COROMA | Cognitively enhanced robot for flexible manufacturing of metal and composite parts
01-10-2016
-30-09-2019
COROMA system reduces the time of operation, through the use of well defined functional modules able to address different manufacturing. Furthermore, it reduces the time devoted to worpiece set-up.
Clear examples are the end user main machining scenarios, where COROMA system must automatically find, localice, and identify the workpiece, automatically generatig the trajectories for the specific operation.
The same characteristics that allow COROMA to reduce the lead time provide the system with a grater flexibility. The capablilty to localice the workpiece and to adapt to certain extent the operation to its specific geometry alloews the system to transform worpiees with differetn sizes and geometry.
In addition to this, the capability to learn from previous operations provides an extra in its flexibility.
COROMA robotic system carries out operations potentially dangerous for human health:
- repetitive tasks,
- tasks in difficult-to-reach areas of big workpieces,
- long-last machining operations on unhealthy materials
On the other hand, safety fuctionality (while navigating or working near an operators) allows a non risky interation with humans.
ZAero | Zero-defect manufacturing of composite parts in the aerospace industry
01-10-2016
-30-09-2019
MC-SUITE | ICT Powered Machining Software Suite
10-01-2015
-30-09-2018
ICP4Life | An Integrated Collaborative Platform for Managing the Product-Service Engineering Lifecycle
01-01-2015
-31-12-2018
Fortissimo 2 | Factories of the Future Resources, Technology, Infrastructure and Services for Simulation and Modelling 2
11-01-2015
-31-12-2018
IMPROVE | Innovative Modeling Approaches for Production Systems to raise validatable efficiency
09-01-2015
-31-08-2018
The operator has a broad decision basis as well as a suggestion of a DSS (Decision Support System), which will improve the manufacturing system. Operator interaction will be done by a new developed HMI (Human Machine Interface) providing the huge amount of data in a reliable manner.
C2NET | Cloud Collaborative Manufacturing Networks (C2NET)
01-01-2015
-31-12-2017
SCALABLE4.0 | Scalable automation for flexible production systems
01-01-2017
-30-06-2020
sCorPiuS | European Roadmap for Cyber-Physical Systems in Manufacturing
01-02-2015
-31-01-2017
COMBILASER | COMbination of non-contact, high speed monitoring and non-destructive techniques applicable to LASER Based Manufacturing through a self-learning system
01-01-2015
-31-12-2017
vf-OS | Virtual Factory Open Operating System
01-10-2016
-31-10-2019
vf-OS as an operating system is addressed to be used by humans on stations, work centers and enterprises. Due to its collaborative nature and the app store nature, vf-OS platform will cover human interacting on a connected world of manufacturing and logistic enterprises.
PREVIEW | PREdictiVe system to recommend Injection mold sEtup in Wireless sensor networks
01-01-2015
-31-12-2017
ModuLase | Development and Pilot Line Validation of a Modular re-configurable Laser Process Head
01-09-2016
-31-05-2021
AUTOWARE | Wireless Autonomous, Reliable and Resilient ProductIon Operation ARchitecture for Cognitive Manufacturing
01-10-2016
-30-09-2019
The concept of fully automated production systems is no longer a viable vision. High reactivity, agility and adaptability that is required by modern production systems, can only be reached by human operators with their immense cognitive capabilities. New concepts are required, that apply these cognitive principles to support autonomy in the planning processes and control systems of production systems.
FAR-EDGE | Factory Automation Edge Computing Operating System Reference Implementation
01-10-2016
-31-10-2019