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The 5GCHAMPION project was launched in June 2016 as one of three first projects within the cooperation framework between MIST (Korean Ministry of Science) and the European Commission. Its ambition was to develop key enabling technologies for a proofof-concept environment to be showcased at the 2018 Winter Olympics in PyeongChang, Korea.
The EuroPAT-MASIP project is intended to strengthen the European ecosystem in microelectronics and more specifically in advanced packaging (FOWLP) by developing new technologies and accelerating their transfer to mass volume production. Six separate pilot applications have been allocated to the project consortium members. In particular, they target automotive components such as inertial sensors, tire pressure sensors, image sensors, silicon photo-multipliers, RF transmitters and radar systems.
The aim of the BEFOREHAND project was to develop chalcogenide-based heterostructures for processing and storage devices for embedding in automotive Internet of Things (IoT) smart systems.
The 5G-HEART project addresses 5G wireless communication and its evolution across different activity sectors such as health, transport and aquaculture. The overall objective is then to define and validate the cost efficient 5G converged network concepts that will an intelligent hub supported by multiple vertical industries.
The ENABLES project brings together the main European research institutes in the field of microsources of energy applied to the Internet of Things. It enables academic researchers or SMEs to access a unique level of skill. The objectives are to disseminate the solutions and build a European ecosystem.
A pilot line for the manufacturing the next generation of smart catheters and implants is being developed in the POSITION-II project. This paves the way towards standard and intuitive systems for improving diagnosis through advances in open platform technologies.
The 5G-ALLSTAR project paves the way to 6G with 3D super connectivity. It demonstrates multiple access, combining cellular and satellite access technologies, to ensure high service availability, service continuity and network reliability over a wide area.
Radio connectivity is key to higher levels of vehicle autonomy, while increasing safety and providing entertainment. Maintaining connectivity and automated mobility across borders is a challenge. The 5G CARMEN project will deploy 5G cells for extensive testing in the Bologna-Munich corridor.
The 5G MonArch project team is investigating the technologies for enhancing the flexibility and robustness of future mobile networks in relation to meeting the heterogeneous requirements of the services foreseen in the 5G use cases.
5E is a coordination and support project to federate European electronics ecosystems. It aims to describe and federate three European electronics sectors, namely nanoelectronics, flexible and wearable electronics, and electronic smart systems.
The 5G-CONNI project is investigating and demonstrating how 5G can enhance industryby creating Smart Factories, in which private 5G networks can be deployed. Network and cloud technologies are being developed and showcased through a multi-site testbed. Parallel private network deployment strategies and new business models are being investigated.
The COSMICC project’s objective is to build cheap, low power optical communication systems. The project is therefore developing silicon microchips embedding photonic integrated circuits, which can send or receive high data volumes at very high speed conveyed by light in optical fibers.
The ApneaBand project adapts and validates a wearable solution dedicated to respiratory sleep disorder event detection from device hardware to business plan. Validation of our solution (device + post processing software) has been based on clinical validation, usage validation and market validation. Adaptation of our solution to the market has been performed (for softwareand hardware following updated specifications) in relation to penetration strategy by a market study and to regulation rules by a market access study. Communications and solution testing have been conducted in relation to patients and professionals, stakeholders and the general population
The MOSQUITO project took one of the most promising approaches to quantum computing and implemented it on an industrial CMOS platform. The first important step was accomplished within 3 years: building the first CMOS-based qubit, which is the basic building block of a quantum computer.
The NEUROTECH project is assembling and curating a coherent collection of educational resources relating to all aspects of Neuromorphic Computing Technologies (NCTs) with the aim of sharing core educational events to disseminate curricula to other communities and to promote NCT among decision makers
The NEURAM 3 project partners have fabricated a mixed-signal analog/digital chip based on neuromorphic architecture that supports state-of-the-art machine learning and spike-based learning mechanisms. In architecture terms, this chip features an ultra-low power, scalable and highly configurable neural architecture that can deliver a gain of a factor 50x in power consumption on selected applications compared to conventional digital solutions.
Cheap, high-speed photonic components are required to cope with today’s boom in data communications, especially optical communications at Data Centers. The MASSTART project’s aim is to transform holistically the assembly and characterization of highspeed photonic transceivers, thereby drastically reducing their mass production cost. This will guarantee European leadership in the photonics industry for the next decade.
REFERENCE project intend to develop the technology solution among the whole value chain to address these challenges and demonstrate the performance on demonstrators at device or system level. The gaps to match 4G+/5G can be summarized on
The aim of the IONS4SET project was to develop a framework for reliably producing SETs that operate at room temperature using a semiconductor industry process flow. The final goal was a hybrid SET/FET electrical demonstrator.
The ENLIGHTENED project is devising a system to analyze the mass distribution of species that are today out of the reach of any commercial instrument. A new system architecture will be demonstrated with new optomechanical resonators for mass sensing.This will reveal new physics governing noise limitation at the nanoscale.
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CEA is a French government-funded technological research organisation in four main areas: low-carbon energies, defense and security, information technologies and health technologies. A prominent player in the European Research Area, it is involved in setting up collaborative projects with many partners around the world.