Therese Paumgardhen
Försäljningschef
sales@rte.se
072-168 13 59
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InSecTT (2020 – 2023)
Project abstract
Artificial Intelligence of Things (AIoT) is the natural evolution for both Artificial Intelligence (AI) and Internet of Things (IoT) because they are mutually beneficial. AI increases the value of the IoT through machine learning by transforming the data into useful information, while the IoT increases the value of AI through connectivity and data exchange.
Therefore, InSecTT – Intelligent Secure Trustable Things, a pan-European effort with 54 key partners from 12 countries (EU and Turkey), will provide intelligent, secure and trustworthy systems for industrial applications to provide comprehensive cost-efficient solutions of intelligent, end-to-end secure, trustworthy connectivity and interoperability to bring the Internet of Things and Artificial Intelligence together. InSecTT aims at creating trust in AI-based intelligent systems and solutions as a major part of the AIoT.
RTE
RTE gjorde bla bla bla och tog med sig bla bla bla.
Project name: 876038 InSecTT
Period: Jun 2020 – May 2023
Call: ECSEL-JU 2019
Total Partners: 52
Website: insectt.eu/
EU Funding: 11,53 M Euro
TECoSA (2020 – ongoing)
Project abstract
TECoSA aims to create a high-impact research, innovation and collaboration environment that contributes to position Sweden as a leader of trustworthy Edge-based systems. To fully reach the vision for 2030, we will continue our outstanding offering to Swedish and international industrial partners in terms of research, technology, knowledge, education and facilities.
RTE
RTE gjorde bla bla bla och tog med sig bla bla bla.
Project name: TECoSA
Period: Mar 2020
Call: ECSEL-JU 2019
Total Partners: 52
Website: tecosa.center.kth.se
iCES (2018 – ongoing)
Project abstract
The ICES Network is a vibrant meeting ground for leading Tech Companies and Academic Faculties at KTH. A place where industry experts, researchers and students come together to share, learn and innovate. Our Members work with Embedded Systems on both a strategic and a technical level. They are leaders and visionaries, practitioners and strategists. They develop and produce products, services and knowledge.
ICES supports its members by bringing together the best of technical expertise, research and talent. A unique value that is made possible by an open-minded and innovative spirit.
RTE
RTE gjorde bla bla bla och tog med sig bla bla bla.
SCOTT (2017 – 2020)
Project abstract
Creating trust in wireless solutions and increasing their social acceptance are major challenges in achieving the full potential of the Internet of Things (IoT). SCOTT will provide comprehensive cost-efficient solutions for end-to-end secure, trustworthy wireless connectivity and interoperability, to bridge the last mile to market implementation. SCOTT will not just deal with ’things that are connected’, but with ’trustable things that securely communicate’, i.e. things interconnected by dependable wireless technology and valuing the end-users’ privacy rules. SCOTT uses a standardised multi-domain reference architecture, created in a predecessor project, DEWI and its “Bubble concept”. SCOTT has a clearly use-case driven approach, with 15 use cases from different areas of high relevance to European society and industry, with a specific focus on cross-domain use cases and heterogeneous environments, emphasizing 5G and cloud computing aspects to build up digital ecosystems and achieve a broader market penetration. More than 20 demonstrators all over Europe will show tangible results from all use cases to a broader public. distributed cloud integration, energy efficiency/autonomy of devices and reference architecture/implementations, which are all necessary to realize the SCOTT use cases will facilitate composability of systems as well as cross-domain sharing of trustable wireless technologies and services. SCOTT project consortium covers the full value chain from silicon to end-users and operators. By providing reference implementations, SCOTT will establish an eco-system for trustable wireless solutions and services for both professional and private users by attracting 3rd parties and particularly SMEs. The involvement of open innovation approaches and stakeholder engagement as well as close cooperation with AIOTI (Alliance for Internet of Things Innovation), and other cluster organizations all over Europe will further boost and exploit the growing “Internet economy”. SCOTT will open up new market opportunities for European industry will significantly reduce time to market and decrease costs for trustable wireless solutions on the market, in particular by using new designs and technical building blocks. SCOTT will develop methods and tools capable of meeting prospect use-case requirements on reliability, robustness, security and functional safety even in harsh and/or not trusted environments. Ultimately, SCOTT will foster the European leadership for Smart and Connected Things (including Internet of Things) and will strengthen Europe’s independence for security enabling components and systems.
RTE
RTE gjorde bla bla bla och tog med sig bla bla bla.
Project name: 737422 SCOTT
Period: May 2017 – Jun 2020
Call: ECSEL-JU 2016
Total Partners: 56
Website: scottproject.eu/
EU Funding: 10,19 M Euro
DEWI (2014 – 2017)
Project abstract
DEWI (dependable embedded wireless infrastructure) wants to foster Europe’s leading position in embedded wireless systems and smart (mobile) environments for both personal and professional users. A “sensor & communication bubble” using wireless technology enables less expensive and more flexible maintenance and re-configuration. Individuals will gain easier, safer and more comfortable, transparent access to information provided by the “bubble”.
RTE
RTE gjorde bla bla bla och tog med sig bla bla bla.
Project name: 621353 DEWI
Period: Mar 2014 – Feb 2017
Call: ARTEMIS-JU 2013
Total Partners: 56
Website: www.dewi-project.eu/
EU Funding: 6,75 M Euro
PaPP (2012 – 2015)
Project abstract
The PaPP project aims to make performance predictable in every development phase, from system modelling and implementation to execution by enabling the early specification and analysis of system performance and adaptation to different hardware platforms, including an adaptive runtime system. Modern of today´s advanced products use embedded computing systems with exacting requirements on execution speed, timeliness and power consumption. The methods and tools developed during the project will be evaluated according to a number of industrial use cases and demonstrators in three key European industry application domains: Multimedia, Avionics and Space, and Mobile Communication. To achieve our goals we have built a highly skilled European consortium consisting of a balanced mix of problem owners, domain experts and technology providers: from large enterprises and SME’s to research institutes and universities.
RTE
RTE gjorde bla bla bla och tog med sig bla bla bla.
Project name: 295440 PAPP
Period: Sep 2012 – Aug 2015
Call: ARTEMIS-JU 2011
Total Partners: 15
Website: www.papp-project.eu/
EU Funding: 1,73 M Euro
SMECY (2010 – 2013)
Project abstract
SMECY envisions that recently emerged multi-core technologies will rapidly develop to massively parallel computing environments which, due to improved performance, energy and cost properties, will extensively penetrate the embedded system industry in a few years.
RTE
RTE gjorde bla bla bla och tog med sig bla bla bla.
Project name: 100230 SMECY
Period: Feb 2010 – Jan 2013
Call: ARTEMIS-JU 2009
Total Partners: 27
EU Funding: 3,41 M Euro