MOTOR | Multi-ObjecTive design Optimization of fluid eneRgy machines
09-01-2015
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09-01-2015
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11-01-2015
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10-01-2015
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11-01-2015
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11-01-2015
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Currently, without any demonstrator running, we did not achieve a reduction of waste.
This KPI can probably only be estimated within ReCaM. Effects to the reduction of waste wight arise through reuse of machines and reduction of erroneous products through automatic production or a strict worker guidance and quality checks.
The reduction of CO2 can only be achieved through a reduction of energy consumption in the context of ReCaM. See above
As the dmonstrators are not running under productive conditions, we could not meassure any data here. Therefore the reduction is currently 0.
10-01-2015
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01-09-2015
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01-01-2001
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01-09-2016
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The COMPOSITION Integrated Information Management System will be a digital automation framework that optimises the manufacturing processes by exploiting existing data, knowledge and tools, integrating them with newly installed cyber physical systems (CPS) and automation software, in order to increase productivity and to allow for dynamic adaptation to changing market requirements. CPS using IoT devices such as wireless sensors nodes (WSN) can be easily retrofitted to existing equipment and infrastructure to gather sensory data and detect anomalies as well as opportunities to improve productivity and cvcle time.
Human-machine interaction is put in the center, supporting the decision making process.
01-10-2016
-30-09-2019
Working on an adaptive automation that meets changing production environment and human variability, automation that is introduced assessing sustainability (economic and social) aspects.
The introduction of automation which is adapted to workers profiles increases workers perfornance and satisfaction.
Adaptive automation are introduced after the corresponding safety risk assessment which guarantees a safe productive environment. Such adaptiveness, new ways of human interaction (commanding through natural speaking and gestures) and assistance and guidance in the productive tasks via augmented reality make factory easier to interact with and more satisfactory to workers.
Active safety features are included to avoid risks in the collaboration of workers and automation.
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.
01-09-2016
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10-01-2015
-30-09-2018
01-09-2014
-17-11-2016
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01-10-2016
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01-10-2016
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01-10-2016
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Daedalus technology (as any other to deploy Industry 4.0-ready automation) absolutely needs a change of perspective and culture in users of such technology (all automation stakeholders)
01-10-2016
-30-09-2019
DIGICOR supports economic sustainability of small but innovative SMEs by enabling them to form agile supply networks that compete with large manufacturers or suppliers. The DIGICOR platform enable companies to identify suitable market opportunities (e.g. OEM tenders advertised on DIGICOR Marketplace) and address those opportunities by forming dynamic partnerships. The collaboration tools provided by the DIGICOR platform ensure complete visibility and governance of the collaborative activities being carried out across partner facilities in the network. By providing information about new business opportunities and allowing companies to participate in multiple supply networks, DIGICOR supports the economic sustainability of ambitious companies in the manufacturing domain.
DIGICOR will offer operative support tools to support human-machine interactions in the production environment. Such tools will allow rescheduling at a fine-grained granularity (operations and human/non-human resources) to mitigate the impact of disruptive events. Moreover, the DIGICOR platform will offer human-centric interfaces for planning and operational control of collaborative activities. The interfaces of DIGICOR tools and services will also follow user-centric design approach.
01-09-2016
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01-10-2016
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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.