COINS European Industrial Doctorate partnership will create a sustainable platform for researchers to engage in collaborative production of knowledge by investigating challenges for managing processes of complex and open innovation created by advances in digital technology. Five Early Stage Researchers, accompanied by experienced, interdisciplinary and intersectoral group of supervisors will study development of innovation capabilities required for organizations of different types to effectively respond to institutional, social and technological complexity in innovation ecosystems. Fellows will benefit of rich and unique complementary training programme, which will enable them to pursue variety of professional careers in academia, industry, consultancy and public policy. They will especially benefit from competency and skills for professional innovation management and technology entrepreneurship. An ambitious outreach programme will equip all fellows with appreciation of the role of business, entrepreneurship and technology in society. They will become responsible researchers and leaders capable of finding solutions for some of the greatest challenges facing our planet. The COINS objectives will be achieved by establishing a long-term partnership between the University of Leeds and Ericsson AB. They are joined by technology start-up Diamentech.

5GhOSTS (5th GeneratiOn Security for Telecom Services) will analyze and improve the security of service-based implementations of 5G networks, relevant to protect the EU’s critical communication infrastructure. Based on the upcoming service-based architecture for 5G by the 3GPP, which includes virtualization of network functions, 5GhOSTS aims to strengthen the security of light-weight virtualization. State-of-the-art technologies in this field do not meet the stringent security, privacy and performance requirements of telecommunication systems. 5GhOSTS addresses these challenges by forming an international and interdisciplinary research group that works towards releasing a number of building blocks for secure light-weight virtualization and container orchestration technology for 5G networks. These building blocks will come with a strong, well-understood and formalized notion of security. They will further comply with legal data protection requirements, implementing these requirements in reusable middleware rather than application level. 5GhOSTS fosters standardization in the mobile networks of the future, focusing on security and privacy. Under the supervision of ICT and law researchers from Ericsson and KU Leuven, 4 ESRs will develop competitive and interdisciplinary profiles. In line with the EU’s vision on doctoral training, open science and sustainable development, 5GhOSTS’ ambitious training network leverages academic excellence and a strong business- and innovation-oriented mindset, to let the ERSs develop technical and transferable skills with a thorough understanding of legal and business aspects. As such, 5GhOSTS address the growing need of the EU economy for young researchers with a strong profile (technical, legal and economic) in the 5G telecommunications domain, increasing the researchers’ international competitiveness.

The PriMO-5G project addresses the area of “a) Focus on mmWave and super broadband services” in the call “EUK-02-2018: 5G” of the Horizon 2020 Work Program 2018-2020. The main aim of the PriMO-5G project is to demonstrate an end-to-end 5G system providing immersive video services for moving objects. This will be done by cross-continental testbeds that integrate radio access and core networks developed by different project partners. The cross-continental testbeds will show the end-to-end operations of envisaged use cases. To achieve this aim, the PriMO-5G project will develop a set of solutions enabling the ultra-high data rate services for fast-moving cars and drones. The development includes mmWave radio technologies, interoperable 5G core networks, and AI-assisted communications. The project contributes to the standardization of 5G Phase 2 and beyond, identifies possible regulatory bottlenecks that need to be solved in order to enable the system to operate globally, assesses the economic and business aspects related to the use of 5G for immerse video service in vehicular and aerial drone settings. The consortium benefits from leading industrial partners both in Europe and Korea who are active key members of major standardization fora, regulatory bodies, and open source communities. Academic partners will also influence the spectrum policies through national regulatory authorities. The PriMO-5G consortium members represent the full range of competence and expertise covering the whole value chain in a complementary way to achieve the project’s objectives. The consortium draws on skills from world-leading manufacturers, competent operator, top universities, and innovative SMEs in Europe and Korea, thus ensuring close cooperation and balanced effort between the two regions. The project will foster a long-term partnership between the two regions, which will help Europe and Korea retain the competitive edge in the fierce global 5G competition.

Information access on the Internet is exploding. Usage is shifting to multimedia applications, social networking and IoE. Cellular networks are moving to the next generation. Networking technology is shifting towards virtualization, with SDN and NFV likely to change the infrastructure landscape. The cloud concept is transforming the Internet to a network of data centers, with a communication model consisting of computer-to-cloud-to-computer interactions. Security concerns are leading to an encryption of all traffic, wreaking havoc with established network mechanisms. In this scenario with dramatic growth and evolution, where abstractions and interfaces become fundamental, ICN is just the perfect solution. ICN2020 will build on the wealth of studies performed on ICN with six main aims: a) design and develop a set of innovative applications such as video delivery, interactive videos and social networks to exploit ICN; b) augment ICN with IoT features and cloud/CDN/virtualization services; c) accordingly enhance existing ICN solutions/architectures; d) build local and global test-bed(s) to experiment the applications, services and ICN enhancements; e) contribute to common APIs and standards, by continuing the work that project partners are already doing; and f) Industry POCs of products and services exploiting ICN. The ICN2020 consortium includes leading experts in ICN and contributors to ICN testbeds in EU, Japan and USA, thus making the goal of federating them a credible one. Partners are also coordinators of running projects on 5G and Cloud topics, allowing fruitful cooperation with fellow projects of the EU-JP1, EU-JP2 calls and increasing the overall expected impact of the EU-Japan cooperation. In a time when 5G networks are being designed, with foreseen unprecedented flexibility due to the virtualization and slice concepts, the development of compelling demonstrations of ICN for real-world use-cases will encourage critical industry investment of resources.

The continuously growing need for higher data-rates and, therefore, more signal bandwidth in wireless communications, requires the use of multi-antenna base stations employing the recently introduced massive Multiple-Input-Multiple-Output (MIMO) concept and operating at millimeter-wave frequencies, e.g. 30 GHz. However, the implementation of such complex antenna systems into highly-integrated, energy- and cost-effective solutions is very challenging. Therefore, we propose an innovative antenna system concept utilizing silicon semiconductor electronics that can generate or receive at millimeter-wave frequencies in order to truly expand wireless communications into the outer limits of radio technology. SILIKA establishes a training network with leading R&D labs from European industries, universities and technology institutes in the domain of wireless infrastructure. This will be achieved by a multi-disciplinary approach combining expertise in all required areas to create a breakthrough towards millimeter-wave multi-antenna systems for energy-efficient and low-cost base stations for 5G wireless infrastructure. In the SILIKA Graduate School we will train 12 ESRs with post-master level technical courses and industrial workshops which are complemented by several professional-skill training modules relevant for working in multi-disciplinary project teams. All ESRs will perform secondments in an industrial setting. The SILIKA consortium consists of key European players in the field of wireless infrastructure with a complementary field of expertise and with a proven track-record in joint collaborations. As a consequence, SILIKA will provide the ESRs with a comprehensive set of transferable skills relevant for innovation and long-term employability. The high level of participation of leading industries will ensure that the scientific results of SILIKA will be transferred to future products in the area of wireless infrastructure which will benefit the European economy.