Search for European Projects

6 European Projects Found

Searched on 125080 European Projects

 FINISHED 
Smart-MEMPHIS project addresses the increasing demand for low-cost, energy-efficient autonomous systems by focusing on the main challenge for all smart devices - self-powering. The project aims to design, manufacture and test a miniaturized autonomous energy supply based on harvesting vibrational energy with piezo-MEMS energy harvesters. The project will integrate several multi-functional technolo ...
Read Project

 9

 FINISHED 
The goal of the InForMed project is to establish an integrated pilot line for medical devices. The pilot line includes micro-fabrication, assembly and even the fabrication of smart catheters. The heart of this chain is the micro-fabrication and assembly facility of Philips Innovation Services, which will be qualified for small/medium-scale production of medical devices. The pilot facility will be ...
Read Project

 40

 FINISHED 

Intelligent Catheters in Advanced Systems for Interventions (INCITE)

Start date: Mar 1, 2014, End date: Mar 1, 2017,

INCITE aims to develop intelligent catheter technologies and systems that will accelerate the paradigm shift from costly, burdensome surgical treatments to cost-effective and patient-friendly minimally invasive interventions. It will also enable the creation of new advanced treatments for currently complex surgical procedures. This will allow for more individuals to be treated thereby contributing ...
Read Project

 24

 FINISHED 

Processes for MEMS by inkjet enhanced technologies (PROMINENT)

Start date: Mar 1, 2013, End date: Feb 29, 2016,

Prominent aims to incorporate inkjet printing as a part of the MEMS fabrication process. By using maskless, digitally controlled, localized additive processes instead of the subtractive processes used currently, selected steps in the MEMS manufacturing can be done with simplified process sequence. This will result in • lower initial investment cost for a MEMS line• greatly increased flexibility i ...
Read Project

 10

 FINISHED 
Future wireless communication systems need to cope with the increased number of frequency bands and advanced mobile phone standards supporting high data rates. At the same time mobile phone systems have to become more energy-efficient in order to contribute to the Grand Challenge “CO2-reduction”. The EPAMO project will address both aspects by exploring and implementing multiple innovative process ...
Read Project

 16

 FINISHED 
The main objective of the ENIAC JU project CAJAL4EU is to develop miniaturised biosensor technology platforms enabling diagnostic test manufacturers to build multi-parameter in-vitro test applications rapidly in a robust, user-friendly and cost-effective way. They will involve nanoelectronic-based transducers with chemical sensing capabilities providing the interface with the clinical samples. In ...
Read Project

 28