EU proposals&projects

Acronym abstract area of expertise
InnoRenew CoE With excellence in research, innovation, and application into economy and society, the new Centre of Excellence, Renewable materials and healthy environments research and innovation centre of excellence (InnoRenew CoE) will improve sustainable building practices by combining the existing concepts with the Restorative Environmental Design (RED) paradigm, which combines sustainable building practices with biophilic design. This will increase the competitive advantages of the affiliated renewable resource-based construction industry, and create innovation and market pull for RED-based materials and products (holistic living environment). Consequently, innovation and market pull for material recovery and higher added value renewable resource based and energy carriers will be initiated. Research and development activities will seek the optimal intersection of performance and sustainability, including economic, environmental and societal indicators. With support and guidance from the advanced partner, Fraunhofer WKI, scientific research and development activities will be transferred profitably and efficiently to the industry and through them to society in the form of innovative new products and processes. Renewable Materials and Healthy Environments Research and Innovation Centre of Excellence
SalCa Parallel applications spend a large amount of their processing time just on synchronising data between threads. Much of this communication is actually not necessary from the mathematical point of view – meaning that the correctness of the calculations would not be seriously affected if the data would not have been communicated. This is used to improve the workload-to-communication ratio e.g. in CFD and PlasmaPhysics. Encoding and exploiting such mechanisms is difficult and not only requires expert knowledge about parallel programming, but about the algorithm and in particular about the underlying mathematics. SalCa provides a programming environment, ranging from development to runtime monitoring, for new, unconventional programming approaches. The approach builds up from functional and data-flow programming, combined with the efficiency of imperative programming (C/C++) to exploit mathematical “intention” behind an algorithm. Using this mathematical information, SalCa will be able to assess the accuracy of an algorithm and compare it with the necessary correctness, and offer new methods and algorithms to alter accuracy in a controlled fashion, so as to improve communication, synchronization dependency, scalability, and thus performance, but also reduce energy consumption. We will show how the same principles can be used for efficient data restructuring and increased parallelism. SalCa will thereby contribute considerably to the foundational knowledge on theoretical computer science, offering new mathematical and algorithmic approaches to solve extreme scale, extreme data mathematical problems.The programming environment will try to achieve maximum compatibility with legacy code, respectively reduce the effort needed for adaptation to a minimum. The capabilities of SalCa will be demonstrated through a large scope of reference use cases from various scientific and commercial fields, including in particular Biochemisty, Multi-Physics and Engineering simulation. e-health
bigMESH Current platforms and software models do not suffice for the degree of distribution and connectivity required by the IoT. Complexity currently has to be addressed completely manually on the level of implementation as well as deployment. Considering this high degree of manual intervention and the complexity of adaptation, the effort for moving towards new markets and targeting new usage requirements is obviously way beyond mere code maintenance. Consequently, the true costs are much higher than already required for maintenance. bigMESH addresses these challenges by strongly advancing towards (de)composabilty of software that enables dealing with the heterogeneous and distributed environment. In order to achieve that, this proposal pursues the triple-I (Information, Incentive, Intention) model which aims at full decomposability, repurposing and distribution of software by exploiting semantic interoperability. This caters for a large scope of use cases and large range of various different device types. This model does not increase the development overhead compared to traditional software development. In addition, minimal additional effort is needed for correct “formatting” of the algorithms and providing data structure information etc. On the upside, maintenance cost increases way slower than for current models, thus generating a major long-term cost saving leading to higher return on investment, as well as a drastically reduced time to market.bigMESH achieves this through its underlying framework, which exposes the whole heterogeneous infrastructure as a seemingly homogeneous hosting environment. In order to do so, bigMESH exposes an “executable data function logic” beyond Turing which determines the application logic on low-level, fine-grained functional blocks, as well as their location. Due to the programming model offered by bigMESH, the application and its configuration can be dynamically changed at runtime, e.g. in order to react to context-specific events. IoT platforms
eEVOLve The key goal of eEVOLve consists in providing an overarching framework for controlling and distributing energy that is not only tied to fixed locations (such as in the case of prosumers) but that is mobile and has flexible characteristics – a dual nature. The eEVOLve system thus combines aspects from three major pillars: planning the “energy logistics”, managing the energy distribution and “plugging in” the sources / consumers. The main concept behind the project consists in the general knowledge / idea that a holistic approach to the energy management system is necessary …. As studies in the Netherlands have shown, most cities are simply not ready for a complete switch to smart cities and electric vehicle: the total consumption of electric vehicles simply overloads the infrastructure leading to a complete break-down. To overcome this problem means first of all to distribute the energy more intelligently over time and space, so that no single point of overload starts to arise within a city (or even country). This is however not so simple: energy distribution should not only depend on the producer’s availability, but also on when and where energy will be needed next. The problem of balancing consumption and production has become central with the objectives set forth by the SET plan, to increase share of energy produced by RES in the energy mix; which led to a restructuring of the electricity market in Europe from a vertically integrated to a vertically decomposed system. This brought the market concept into energy production and consumption, which in turn opened the doors to using adaptation on demand (consumption and production) as an important technology in balancing problems and optimization of energy use. energy efficiency
MUNINN Muninn will provide a fully integrated framework and toolset to extend any cultural heritage site or museum with a virtual education and entertainment system that will attract visitors and scientists alike, provide them with personalized information related to their expertise and interest, guide their experience and facilitate their further education and continuation of the experience in a fun and informative fashion. Muninn thus addresses the full lifecycle (before, during, after) of a visitor or a potential visitor to cultural sites, museums, cities etc. and will even go beyond the primary cultural heritage sites, integrating touristic recommendations related to the experience to provide a full experience on the topic, including e.g. book shops for further information or restaurants with original regional food etc. The whole experience is thereby fully tailored to the user, adapting on the fly on basis of interest exhibited during the visit. The Muninn framework offers a fully immersive experience that allows users to inspect exhibited artefacts close-up and in detail that would not be allowed on site – even from remote locations. Thus Muninn is not only of interest for the average visitor, but to scientists, researchers and scholers alike. In fact, Muninn allows users to generate their own museums and build scientific publications on the framework. The project thereby addresses constraints and business considerations, including data protection and infrastructure limitations in less developed regions. Realising a Muninn based museum will thereby be cheap and simple, as Muninn facilitates the easy generation and provisioning of complex (virtual) museum content, including 3d models, tagged specific and general descriptions, as well as multimedia data. Muninn allows museums to attract more visitors, increase souvenir sales, gather feedback on the museum or site, and make the visit an entertaining and educative experience to the visitor. augmented reality&cultural heritage
MODERN-CONCERT MODERN-CONCERT will build upon the open source certification framework developed by the EU F7 project CUMULUS. This framework developed to support the certification of a wide spectrum of security properties of different types of cloud services (at infrastructure, platform and software level) based on alternative, complementary types of evidence, including testing and dynamic monitoring data and trusted platform information. The CUMULUS framework realizes a model driven approach to certification in which both the collection and analysis of evidence that is required for the assessment of security properties that constitute assurance profiles, and the generation and management of digital certificates for such properties are driven by certification models. These models define the target of certification, the security properties to be assessed, the types of evidence that should be collected for the assessment of these properties, the ways of analyzing this evidence, and the process through which certificates can be generated and managed once the evidence is sufficient. Based on the execution of such models, the CUMULUS framework automates the security assessment and certificates management process and enables continuous certification. It also does so in a fully customizable manner, as the users of the framework can define their own certification models based on the target of certification that are of interest to them and the assurance profiles that they want to adopt as part of the certification process. open source certification framework
BoxControl The overall objective of the BoxControl project is that organization and setup of a complex system of smart CPS occurs autonomously considering the following aspects: – Specific constraints and capabilities of this system of CPS and of the environment – The user’s wishes and requirements regarding the output of the system Therefore, BoxControl provides an infrastructure enabled by a Virtual Factory Middleware supporting autonomy of systems and ensuring controllability at the same time. Corresponding key features are:1 – A dialog-based user interface to provide a top-level intuitive entry point into the network of autonomous and distributed systems for system configuration and setup; 2- Local intelligence instances to ensure strict fulfilment of existing constraints and to bring the requirements of the product configuration with the capabilities of the CPS into accordance; 3- The control boxes in combination with a configuration and code repository to ensure characteristics of a modern ICT system – hiding of system complexity, simplification of programming and design, encapsulation for safety and security etc. The BoxControl approach helps to overcome the current drawbacks regarding technical systems, e.g. production systems. Here, configuration and workflows are defined by specialists and the setup of these systems needs a lot of time and effort as all system interaction and behavior is manually configured during the planning, engineering and commissioning phases. With BoxControl we reduce these efforts as we enable tools and systems being smart CPS with the ability for decision-making and interconnection. The achievement of the presented objectives will be evaluated by means of four case studies provided by the consortium’s industrial partners. SmartFactory
IMPACT In the increasingly common situation of governments being expected to deliver better and more public services for less cost whilst maintaining executorial governance the Transformational Government approach provides means for designing and delivering an effective program of technology-enabled changes at all levels of government. IMPACT facilitates the movement towards a cloud-based services platform, in search for a wider adoption of cloud computing in governmental applications, both for the front-end (applications delivered to the user) and back-end (applications used to create citizens’ applications) across all parts of government, procuring efficiency gains and organizational agility while at the same time enabling better, citizen-centred and focused service delivery. For this, IMPACT provides public administrations with a set of tools, techniques and best practices to foster the adoption of cloud computing as well as to improve the maturity level of cloud adoption in public administrations, allowing to transition their own software and services to implement on one hand, a more efficient internal software to be used by the public sector and on the other hand, services that implement what really matters to the citizens and how it really matters by ensuring data portability, data privacy and interoperability. By adopting these tools, IMPACT enables PAs to implement the Transformational Cloud Government (TCG), supporting a managed, citizen centric, Cloud based public services modernization, putting the needs of citizens and businesses at the heart of that process. Three use cases will be conducted in 3 European public administrations covering the specific need of local (City of Riga), regional (IP) and national (Ministry of Public Administration -Slovenia) governments across Europe. Feasibility and commercial potential of the IMPACT deliverables will be implemented, trialed, and benchmarked against pilot driven business cases and evaluation metrics. Governmental cloud deploment enablement
readyStartCLOUD readyStartCLOUD addresses the specific challenge of the ICT-06-2016 innovation side, namely fostering the provision and adoption of competitive, innovative, secure and reliable cloud computing services by SMEs and public sector organisations across Europe. As the readyStartCLOUD consortium already contributes to competitive, innovative, secure and reliable cloud computing technologies individually, the joint effort within readyStartCLOUD leverages synergies in order to provide an excellent technological base for dissemination. Any technological development is aligned with the needs set by the target groups, methodologically surveyed and analysed. The realized use case demonstrators highlight how those needs are met and which benefits readyStartCLOUD brings to the respective target audience. readyStartCLOUD is creating and composing a set of artefacts which promote a vendor-neutral community-driven European cloud computing approach as a counterweight to prevalent centralized public cloud computing platforms of gigantic US companies. The main artefacts are cloud blueprints (incorporating ready-to-use cloud components), distilled supporting materials, as well as a crowdsourced component database. a/ Many digital innovators, SMEs, and public sector organizations are not able to realize the benefits of cloud computing at all, since the knowledge and the amount of infrastructure engineering required to do so is a major drawback itself. readyStartCLOUD proposes vendor-neutral cloud blueprints to foster the uptake of cloud computing by digital innovators, SMEs, as well as public sector organizations.b/  readyStartCLOUD offers distilled supporting materials in order to transfer knowledge about state-of-the-art cloud computing in a format pertinent to its target group.c/ The component database repository contains business-pertinent descriptions to ease the users’ efforts for finding and selection. innovating of SMEs and public sector
FuturIT The Future Internet Accelerator (FuturIT) aims to open FIRE innovation effort to everyone with new collaboration and business models between the existing FIRE testbeds, the cities, the commercial operators, SMEs and startups, following citizen-driven initiatives. Based on the FIRE+ Strategy and Innovation roadmap designed in WP2 and the Collaboration Models & partnership activities implemented in WP3, the project will set up a highly interactive platform provided by CityOS in WP4, where real Future Internet actions and projects will be demonstrated, rated, featured and expanded. What is distinctive in our approach is the overarching motivation to create real changes and impact, taking FIRE+ opportunities to 89 cities and 150 living labs worldwide. With the FuturIT platform we would like to orchestrate a very exciting leading edge technology collaboration between at least 3000 users from academia, existing EU projects, cities, SMEs and startups. In this ecosystem we see there is a huge need for synergetic initiatives that explain to anyone the latest FIRE+ results and how to join this initiative. FuturIT embraces and builds upon the amazing achievements from Open & Agile Smart Cities (OASC), the first global city network where open data and interoperable solutions are being shared on a large scale. With this proposal, the consortium aims to boost networking activities around OASC that perfectly conveys the FIRE+ methodology to cities. FuturIT team includes open data standardisation experts (Imperial College), civic minded startup incubators and VCs (Civic Tech Amsterdam, Inveready), and extensive FIRE community engagement partners (Aarhus, CityOS, Eurocloud and ENoLL). Thus, FuturIT represents a highly complementary collaboration between strong EU wide operating Future Internet projects, and experts both from startups incubation and from academia. smartcity acceleration