APPOLO | APPOLO - Hub of Application Laboratories for Equipment Assessment in Laser Based Manufacturing
01-09-2013
-31-08-2017
01-09-2013
-31-08-2017
01-01-2015
-31-12-2017
01-01-2015
-31-12-2018
01-04-2015
-31-03-2019
11-01-2015
-31-10-2018
01-09-2015
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11-01-2015
-31-07-2020
11-01-2015
-31-12-2018
11-01-2015
-31-10-2018
01-09-2016
-31-08-2019
01-10-2016
-30-09-2019
01-09-2016
-30-11-2019
01-10-2016
-29-02-2020
01-10-2016
-30-09-2019
01-11-2015
-31-10-2017
01-05-2015
-31-07-2018
01-10-2016
-30-09-2019
01-10-2016
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01-11-2017
-28-02-2021
01-10-2017
-31-03-2021
SERENA aims towards the data-driven condition evaluation of machine and production equipment, which through machine learning techniques can provide insight in the remaining useful life of the equipment enabling the avoidance of production stops and thus reducing its overall costs. The combination of data-driven and physics based techniques is envisioned to increase the reliability of the prediction and contribute to a high perfromance production without undesired interruptions.
THe evalaution and assessment of the equipment condition through the predictive manitenance and data analytics of the SERENA project will move towards the preservation of the production equipment in normal workiong conditions ensuring high quality products.
01-10-2017
-31-03-2021
PROGRAMS solution will allow to gain a “10% increased in-service efficiency through reduced failure rates, downtime due to repair, unplanned plant or production system outages and extension of component life.”
•reduced failure rates:All these aspects will reduce the costs related to maintenance activities, thus increasing the sustainability of the production process.
Precise determination of the RUL of components will allow to replace them before their status degrades production equipment performances beyond unacceptable levels.
01-10-2017
-31-03-2021
Z-BRE4K heavily contributes to the economic sustainability of the manufacturing sector by deploying an advanced maintenance solution aimed to attain zero unexpected breakdowns. In this regard, Z-BRE4K will avoid fatal failures, thus minimizing the breakdown times and need for spare parts and overhauls and will estimate the remaining useful life of critical subsystems of machinery, lines and shopfloor so that maintenance operations can be scheduled and optimized.
Z-BRE4K solution will guarantee the improved product quality since the machines will be stopped and the maintenance will be carried out before any failure occurs and defective products are manufactured.
01-10-2018
-31-03-2022
Cobots and in general HRC solutions, which can be used for multiple functions due to their flexibility in deployment, offer higher returns on investment and faster payback, compared to legacy industrial robots. Moreover, cobots’ safety features and ease of use make integration and implementation less costly than the traditional industrial robots. In high-cost countries, having skilled human workers engaged in suitable configured manufacturing, assembly, finishing and inspection operations side by side with cobots is one of the most cost- effective ways to leverage the unique value-adding capabilities of a skilled human workforce
ROSSINI develops a Design Level that allows users to follow and evaluate process designs on multiple dimensions, where job quality and related metrics are the primary outcomes together with productivity, product quality and cost
01-01-2019
-31-07-2022
Concerning the ecological and economic operation of a factory, data analytics tools in combination with simulation approaches can contribute to improved throughput, bottleneck-reduction, or both for the production line. Through the optimization of the processes, production execution on organization and logistic level can be optimized by reducing the amount of material within the system, the lead times, or both.
improve false positive rate by 20%. Measured as false positives rate, actual value is considered confidential.
Quality- Fall Off Rate, from 95% (as is) to 98,5% (to be)
01-01-2019
-30-06-2023
01-01-2019
-31-12-2022
01-11-2019
-31-10-2023
01-11-2018
-30-04-2022
Several services in the M4.0 portal permit the analisis and optimization of the equipment parameters in order to produce zero defect parts.
01-10-2020
-30-09-2023