Intends to provide an integrated, complete/open environment to support business applications engineering. This openness will allow it to be smoothly introduced into existing organisations and support their evolution.
Develop, prove and commercialise an environmentally and user-friendly process to eliminate/reduce disposal of waste salt cake and recover chemical values from bayer process waste salts (salt cake).
Development and experimental production of measurement standards for laser beam and optics characterization. technology and instrumentation for on-line and off-line beam and optics monitoring.
Develop software tools for digital acquisition, archiving, interactive delivery of endangered cultural heritage database entries, managing internet-integrated multimedia database and electronic copyright trading environment.
The aim of the project is the development, optimisation and validation of new technology for aluminium high pressure die casting intended for the manufacturing of structural components where there are high tightness requirements.
The project combines new and existing technologies to deliver a selfprovisioning eparticipation platform for citizen engagement. It includes heterogeneous authentication (e.G. Geo-authentication), cryptographically secure and privacy enhanced electronic voting, and cloud-based security.
The project goal is to develop a product / capture platform, semantic analysis and classification of information obtained from real-time digital ecosystem for businesses of any size.
The project is for the development of technology for powering and locating iot devices with passive uhf rfid using the combined expertise between both companies to allow for wireless power transfer to integrated rfid sensors at distances up to 10 meters or more.
Camelina is an ancient crop in some regions, but it still needs to overcome some challenges in order to become efficient and sustainable. Canadian-spanish collaboration can provide key synergies to boost camelina expansion, focusing on the salmon aquaculture industry market.
There are no technologies able to measure the scuffing phenomena and to regenerate the returnable glass bottles, neither from a domestic or a global perspective. The result of the project is going to be absolutely new and is going to allow maximizing the "life cycle" of the returnable glass bottles.