Search for European Projects

13 European Projects Found

Searched on 125080 European Projects

 FINISHED 

Quality-Aware Rapid Software Development (Q-RAPIDS)

Start date: Nov 1, 2016, End date: Oct 31, 2019,

Context. Software quality is an essential competitive factor for the success of IT companies nowadays. Recent technological breakthroughs such as cloud technologies, the emergence of IoT and technologies such as 5¬G, pose demanding quality challenges in software development.Problem. Optimal software quality asks for the appropriate integration of quality requirements (QRs) in the software life-cyc ...
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 7

 FINISHED 
The 5G CHAMPION project ambitions to deliver the first 5G system proof-of-concept in conjunction with the 2018 South Korean Winter Olympics. Key novel 5G building blocks will be developed and implemented into a new architectural approach providing an efficient end-to-end system performance encompassing cutting edge 5G radio-access, core-network and satellite technologies.It will be the first time ...
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 10

 FINISHED 

5G NOvel Radio Multiservice adaptive network Architecture (5G NORMA)

Start date: Jul 1, 2015, End date: Dec 31, 2017,

"The key objective of 5G NORMA is to develop a conceptually novel, adaptive and future-proof 5G mobile network architecture. The architecture is enabling unprecedented levels of network customisability, ensuring stringent performance, security, cost and energy requirements to be met; as well as providing an API-driven architectural openness, fuelling economic growth through over-the-top innovation ...
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 15

 FINISHED 
5G will have to cope with a high degree of heterogeneity in terms of: (a) services (mobile broadband, massive machine and mission critical communications, broad-/multicast services and vehicular communications); (b) device classes (low-end sensors to high-end tablets); (c) deployment types (macro and small cells); (d) environments (low-density to ultra-dense urban); (e) mobility levels (static to ...
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 18

 FINISHED 
Key objectives of METIS-II are to develop the overall 5G radio access network design and to provide the technical enablers needed for an efficient integration and use of the various 5G technologies and components currently developed. The innovation pillars that will allow METIS-II to achieve this goal are • a holistic spectrum management architecture addressing the spectrum crunch, • an air interf ...
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 24

 FINISHED 
... supporting UHD/3D streaming, immersive applications and ultra-responsive cloud services.The consortium brings together major infrastructure vendors (Samsung, Ericsson, Alcatel-Lucent, Huawei, Intel, Nokia), major European operators (Orange, Telefonica), leading research institutes and universities (Fraunhofer HHI Institute, CEA-LETI, IMDEA Networks, Universities Aalto, Bristol, Chalmers and Dresd ...
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 19

 FINISHED 
Providing broadband wireless communications to a majority of European citizens is a major objective of the EC at the horizon of 2020. With a current annual growth rate in the range of 70%, the mobile data traffic of smartphones, tablets, machine-to-machine and other portable devices dramatically challenges the 4G wireless cellular network currently under deployment. To sustain this growth, high da ...
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 15

 FINISHED 
In 2020, mobile and wireless traffic volume is expected to increase thousand-fold over 2010 figures. Moreover, an increase in the number of wirelessly-connected devices to counts in the tens of billions will have a profound impact on society. Massive machine communication, forming the basis for the Internet of Things, will make our everyday life more efficient, comfortable and safer, through a wid ...
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 24

 FINISHED 

FI-WARE: Future Internet Core Platform (FI-WARE)

Start date: May 1, 2011, End date: Dec 31, 2014,

The goal of the FI-WARE project is to advance the global competitiveness of the EU economy by introducing an innovative infrastructure for cost-effective creation and delivery of services, providing high QoS and security guarantees. FI-WARE is designed to meet the demands of key market stakeholders across many different sectors, e.g., healthcare, telecommunications, and environmental services. FI- ...
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 92

 FINISHED 

Internet of Energy for Electric Mobility (IoE)

Start date: May 1, 2011, End date: Oct 31, 2014,

The objective of Internet of Energy (IoE) is to develop hardware, software and middleware for seamless, secure connectivity and interoperability achieved by connecting the Internet with the energy grids. The application of the IoE will be the infrastructure for the electric mobility. The underlying architecture is of distributed Embedded Systems (ESs), combining power electronics, integrated circu ...
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 43

 FINISHED 

Future INternet for Smart ENergY (FINSENY)

Start date: Apr 1, 2011, End date: Apr 30, 2013,

The energy sector has entered a period of major change which will continue for many years to come. The increasing proportion of electricity from renewable sources means that the architecture of the energy grid will have to support the distributed, in addition to the centralised, generation of energy and to adapt to a highly volatile supply e.g. from wind and solar generators. From the consumption ...
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 41

 FINISHED 

SAIL: Scalable & Adaptive Internet soLutions (SAIL)

Start date: Aug 1, 2010, End date: Feb 28, 2013,

SAIL's objective is the research and development of novel networking technologies using proof-of-concept prototypes to lead the way from current networks to the Network of the Future.SAIL leverages state of the art architectures and technologies, extends them as needed, and integrates them using experimentally-driven research, producing interoperable prototypes to demonstrate utility for a set of ...
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 26

 FINISHED 

Advanced Radio Interface Technologies for 4G Systems (ARTIST4G)

Start date: Jan 1, 2010, End date: Jun 30, 2012,

The first 3GPP Long Term Evolution standard version is complete and ready to be deployed. Although it increases peak data rate and spectral efficiency compared to legacy techniques, cell-edge and average user throughputs are still significantly lower than the peak rates. In the LTE-Advanced Study Item, ways to extend LTE are being explored. However, some of the considered techniques are complex an ...
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 18