CTC | Local flexible manufacturing of green personalized furniture Close To the Customer in time, space and cost.
01-06-2013
-31-05-2016
01-06-2013
-31-05-2016
01-09-2013
-31-08-2016
01-09-2013
-28-02-2017
01-11-2013
-30-04-2017
01-10-2013
-30-09-2017
Development of holistic simulation platform for factories integrating the production, energy and environmental aspects.
01-09-2013
-29-02-2016
01-09-2013
-31-08-2017
01-10-2013
-30-09-2016
01-10-2013
-30-09-2016
01-10-2013
-30-09-2016
01-11-2013
-31-10-2016
01-09-2013
-31-08-2016
01-09-2013
-30-11-2016
3D laser scanning techniques
Augmentation of upgrade design solutions on in-situ equipment
VR solution based on combined pointcloud and 3D models
VR models based on photogrammetric and laser scanning techniques
Digital factory model from 3D laser scanning combined with Virtual Reality models
01-01-2014
-31-12-2017
01-09-2013
-31-08-2016
01-07-2013
-30-06-2016
01-01-2015
-30-06-2018
01-01-2015
-31-12-2017
01-09-2013
-30-11-2018
01-09-2013
-31-12-2015
01-01-2015
-31-12-2017
01-12-2014
-30-11-2018
01-01-2015
-31-12-2017
FALCON aims to gather Product Usage Information from Product Embedded Information Devices as well as customer feedback through the internet and social media. These information will be re-used directly to improve product-services. These product-service optimizations are carried out in a multidisciplinary way by stakeholders from different domains. FALCON further supports the process of product-service optimization by providing a collaboration platform.
FALCON aims to provide methodologies and approaches for representation of design knowledge on the one hand and additionally for forecasting and simulation mechanism. The representation of design knowledge will be based on existing standards and the developments dedicated to the Rule Interchange Format, which has been developed within the FP7 LinkedDesign project. Furthermore, FALCON supports the optimization of Forecasting and Simulation mechanism. By using real-life data gathered from Product Embedded Information Devices, sensors or from social media (blogs, twitter, facebook etc.) throughout the whole lifecycle optimized results are expected in order to find the best solutions for new generation product-services.
The FALCON Open Virtual Platform aims to support different domains dedicated to the whole lifecycle of products. In order to achieve this goal the Virtual Open Platform will include an ontology enabling different domains to exploit the FALCON VOP. Dedicated to the field of new product design the Rule Interchange Format will be further developed in order to represent design knowledge in a neutral format. This way also general valid knowledge (such as Moment of Inertia etc.) can be re-used in different contexts of product design.
01-01-2015
-31-12-2016