Strand interest: | Strand 2 | Pre-structuring Model Topic of interest | P8: 5G holistic network architecture |
Proposer: | Full name: Research for Science, Art and Technology (RFSAT) Ltd Country: United Kingdom Short name: RFSAT Category: Applied research, technology provider and developer Entity type: SME |
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Scope of competence being offered: | RFSAT Ltd is a research-performing SME. Its activities focus on research and development through national and international research funding, industrial consultancy and deployment of research results in the telecommunications industry. The list of interest areas include Digital Signal Processing (DSP) for mobile telecommunications systems, networked audio-visual broadcasting, tele-presence systems, Virtual/Augmented/Mixed-Reality systems and applications, 3D game-based rehabilitation support, immersive user interfaces, embedded mobile sensing and control systems, hybrid indoor and outdoor (GNSS+ assisted/differential/other, wireless, inertial and mobile) positioning, localization and navigation, Geographical Information Systems (GIS) and other technological areas. RFSAT pursues relevant research and innovation activities under European FP7 and COST Actions programs in the thematic areas of Information and Communication Technologies (ICT), Intelligent Construction, Security and e-Health.In the context of Strand 2, RFSAT gathers a team of researchers and developers with long-term experience in telecommunications systems, from transceiver design for mobile communication devices and their VLSI implementation, efficient implementation of multi-rate Digital Signal Processing (DSP) algorithms for mobile, GNSS and wireless standards, noise and echo cancellation, low-power front-end implementations. Our developers have been involved in industrial projects for major mobile manufacturers and funded research projects dating back to 1999 and the first UMTS base station developed through the FP5 project.Regarding the pre-structuring model topic P8, our ambition is to explore our experiences and development potential in 3G and 4G mobile communications standard as well as recent experiences in wireless sensing networking, “Internet of Things” enablers in the context of Environmental monitoring, e-Health and Cyber security in evolving the 4G network architectures towards 5G one by integrating all the mentioned communication and networking technologies. We may offer direct research and development capabilities in pursuing applied research in those areas and performing technical validation testing of proposed 5G network enhancements. Our main interests in P8 are on mobility aspects, security, privacy / ID management and SDN/NFV methodologies.. Our ambition is also to enhancing mobile device capabilities as mobile routers, becoming active part of the overall 5G networking architecture and not remaining as mobile end-points only. | ||
Additional Resources Offered : | We offer contacts to end-users, service providers, mobile operators, broadcasters, e.g. for trials, evaluations, etc. We can recommend valuable partners to fill gaps in consortium expertise and competencies We offer dissemination capabilities to projects via our publishing channels, media advertising etc. |
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Contact: | Mrs Emmanouela VOGIATZAKI Director / R&D Projects Manager Email: RTD@rfsat.com WEB: http://www.rfsat.com |
Strand interest: | S1, S2, S3 | Pre-structuring Model Topic of interest | P3, P8, P11, P12 |
Proposer: | SIX Research Center, Brno University of Technology (BUT), Czech Republic | ||
Scope of competence being offered: | – Experience with implementing and testing 2G/3G/4G mobile networks and their components, based on available both open-source and commercial tools and solutions; – Knowledge of mobile network operation, protocol analysis and diagnostic, and performance measurement procedures based on experience from both academic research and commercial projects. – Contemporary mobile network’s packet switched domain is optimized as access network for internet and other services. With advent of M2M communication, this architecture becomes inefficient because M2M is less oriented towards internet access and more about direct communication between terminal equipment. Therefore we propose an update of overall network core architecture to facilitate more efficient communication between endpoint devices, so that the mobile network can support M2M services efficiently. |
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Additional Resources Offered : | Complete commercial grade 4th generation mobile network consisting of: – Heterogeneous Radio Access Network with 2 LTE-Advanced (Release 10) eNodeBs creating 5 cells in 700MHz (3x), 1800MHz (1x) and 2600MHz (1x) frequency range with channel width of up to 20MHz, supporting 2×2 MIMO; 2 WLAN access points operating in both 2.4GHz and 5GHz frequency range; – EPC including MME, Unified GW (Serving GW + PDN-GW), HSS, dimensioned to support 100k+ active users; – IMS Release 10, fully rendundant, own secondary HSS, dimensioned to support 100k+ active users and 500+ concurrent audio/video calls with transcoding, Public Safety Answering Point; – O&M center; – All interconnections and transport infrastructure built on 10Gbps optical/UTP Cat6A links; – Offers wide variety of multimedia communication services including VoLTE, RCS; – All interfaces available for passive monitoring. |
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Complementary infrastructure: | – Rohde & Schwarz ROMES4; – EXFO Powerhawk Pro + Travelhawk + M5 protocol analyzer & User Plane DPI pof passive monitoring of various mobile network interfaces; – L2 – L7 load generators for performance & stress testing, application layer testing for HTTP, SIP, etc. based services; – Set of multitechnology and multiband terminals –smart phones, tablets and USB sticks from various OEMs; – Set of application servers to test real services over the mobile networks. |
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Contact: | Jaroslav Koton Dept. of Telecommunications vice-head SIX Research Center, Brno University of Technology, Technicka 12, CZ-616 00 Brno, Czech Republic tel: +420-541-146-971 email: koton@feec.vutbr.cz |
Strand interest: | Strand 2,3,4 | Pre-structuring Model Topic of interest | P8, P9, P10, P12, P14 |
Proposer: | Salzburg Research, AustriaNon-profit research organization specialized on applied research in the area of ICThttp://www.salzburgresearch.at/en/ | ||
Scope of competence being offered: | Expertise in QoS and SDN in various application areas including wide-area telecommunication networks, energy networks and IoT/M2M networksLong-term experience in national and international research projects and advanced software tools such as:
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Additional Resources Offered : | Contacts to SMEs in the field of telecommunications and other areas in Austria | ||
Contact: | Peter DorfingerHead of Advanced Networking Centerpeter.dorfinger@salzburgresearch.at |
Name of Proposal: | 5G PPP | ||
Proposer: | Core Network Dynamics http://www.corenetdynamics.com, http://www.OpenEPC.net | ||
Strand Addressed: | Strand 1,4 | Pre-structuring Model Topic | P7, P8, P9, P10, P14, P15 |
Scope of Proposal: | Starting from a prototype implementation of the Evolved Packet Core, supporting LTE, as well as WiFi and legacy 2G/3G RANs, we are targeting the practical adaptations and implementation of the envisioned 5G Core Network elements. The scopes are to adapt first existing EPC architectures to the requirements of 5G radio. Then a practical testing and experimentation pre-product implementation will be executed, providing to the partners the realistic test-bed infrastructure. As potential interesting item would be the separation of control and user-data plane processing in the classical S/P-Gateway, towards SDN/NFV concepts, with the use of OpenFlow or similar protocols. | ||
Resources needed: | Core Network Dynamics can provide comprehensive test-bed functional elements for mobile broadband architectures. The OpenEPC includes support today for interconnecting 2G/3G/LTE and WiFi Radio Access Networks with generic IP applications as well as with integrated architectures (e.g. IMS). OpenEPC requires to function radio base stations. | ||
Contact: | Dr.-Ing. Dragos VingarzanCTOdragos@corenetdynamics.com |
Strand interest: | Strands: 1, 2, 3, 4 | Pre-structuring Model Topic of interest | P7, P5, P6 / P8, P9 / P11 / P14 |
Proposer: | AIT – “Athens Information Technology” centre“Networks and Optical Communications” (NOC) research group | ||
Scope of competence being offered: |
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Additional Resources Offered : | – Large set of network and physical layer models for access networks and heterogeneous wireless, wireline transport technologies- Large number of highly performing novel algorithms for L2/L3 traffic processing, dynamic resource provisioning and QoS support with application awareness- A complete meta-MAC control framework, which encapsulates various PHY interfaces and enables fair inter-technology bandwidth allocation and resource management. (Meta-MAC can be tailored to work on top of constituent MAC protocols, and exploit virtual carrier and time frame resources as both finely granular and scalable bandwidth assignment units.)- Advanced laboratory infrastructure for system testing and measurements- Several FPGA processing modules t (XGPON framework, LDPC codes, accelerators, etc.)- Hardware/software co-simulation platform for hardware optimization (e.g. energy consumption, area, performance)- Techno-economic models for optical access networks and backhauling solutions | ||
Contact: | Ioannis Tomkos – Head of NOC group (email: itom@ait.gr, tel: +30 210 668 2771)Dimitrios Klonidis – Senior Research Fellow (email: dikl@ait.gr, tel: +30 210 668 2773) |
Strand interest: | Strand 2 | Pre-structuring Model Topic of interest | P8 |
Proposer: | Warsaw University of Technology, Telecommunication Network Technologies Group (TNT), http://tnt.tele.pw.edu.pl, public univ, non profit | ||
Scope of competence being offered: | The TNT Group actively participates in European projects since 1990. The main areas of expertise:
Recent projects:
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Additional Resources Offered: |
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Contact: | Prof. W. Burakowski, wojtek@tele.pw.edu.pl, +48 22 234 7716 |
Strand interest: | Strand 2: convergence beyond last mile | Pre-structuring Model Topic of interest | P8 |
Proposer: |
These two institutions will apply as a single legal entity where KTH will be the project partner and CNIT will serve as “third party” of the partner. |
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Scope of competence being offered: | KTH and CNIT have a very close collaboration, which is reflected in a number of joint publications and by the exchange of students and researchers. Both institutions can leverage on their expertise on network design; access networks (including mobile convergence); open access for multi-operator environment; and techno-economics evaluations. Specifically related to the goals of this project we can offer a strong expertise in SDN-based control solutions and applications for core, metro, access, and heterogeneous networks, in addition to service-oriented architectures for next generation networks and context-aware computing and communication.Possible topics in which we can contribute to the project include:
Relevant references:
Recent projects relevant to this application:
Key people who will be involved in P8:
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Additional Resources Offered : |
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Contact: | Lena Wosinska (wosinska@kth.se) and Piero Castoldi (piero.castoldi@cnit.it) |
Strand interest: | Stands 1,2,3, 4Cross strand | Pre-structuring Model Topic of interest | P2,P4,P6,P8,P9,P12,P14, |
Proposer: | B-COM (www.b-com.com) is one of the 8 French Technological Research Institutes launched by French government in 2010 and certified in 2012. B-Com is legally a private research foundation viewed as an SME by the European Commission. The objective of an IRT is to achieve excellence in the most competitive sectors such as Networks and Infrastructure technologies that will integrate the next generations of mobile, wired and wireless networks.B<>com is registered under PIC number n°948011362. | ||
Scope of competence being offered: | B-COM has its own R&D task forces with 3 labs dedicated to Networks & Security domain:- Network Interfaces dedicated to 5G fibre and radio (see http://b-com.com/en/innovation-fields/network-interfaces)
– Network Architecture dedicated to convergence and network function virtualization (see http://b-com.com/en/innovation-fields/future-networks-architecture) – Cloud Computing (see http://b-com.com/en/innovation-fields/cloud-computing) |
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Additional Resources Offered : | B-Com is :- Member of ETSI and take an active part in ETSI RRS working group
– Member of Networld2020 European Technology Platform – Attending member of GreenTouch consortium – Member of French Cyber-security cluster and Images & Réseaux cluster B-Com has close links with large companies (like Orange and TDF), as well as famous French academics (Telecom Bretagne, INSA, Supelec, IRISA, …) B-com is also operating testbeds with a large scope from HPC & Storage capacity to indoor/outdoor multi-RAT radio networks. |
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Contact: | Contact InformationXavier Priem, xavier.priem@b-com.com, +33 (0) 56 35 85 02
Michel Corriou, michel.corriou@b-com.com, +33 (0) 56 35 88 59 For strand n°1, Rodolphe Legouable, rodolphe.legouable@b-com.com, +33 (0) 2 56 35 88 42 For strands n°2-3-4, Philippe Bertin, philippe.bertin@b-com.com, , +33 (0) 2 56 35 88 58 |
Strand interest: | Convergence beyond last mile | Pre-structuring Model Topic of interest | P9 and P10 |
Proposer: | COPELABS, University Lusofona – Research Laboratory (academia) (private non-profit association) | ||
Scope of competence being offered: | An increasing pervasiveness of portable devices as well as the emergence of new services has created critical control requirements, to assist a truly unified, and heterogeneous 5G system. Such a unified and scalable vision requires, in our opinion, a way to assist a direct exchange (release and relocation) of the most varied resources e.g. specific services (connectivity offloading, roaming); parameters (bandwidth, memory, or storage) above the 5G infrastructure (e.g. on a SDN, or across services).We are working on mechanisms that provide the grounds for such an exchange, e.g. adequate mapping of diverse types of resources; . sharing and relaying of resources, expected to assist aspects of fixed mobile convergence, such as offloading, traffic locality, energy efficiency. | ||
Additional Resources Offered : | – SME relations and contacts – COPELABS has established partners, locally and internationally, as well as spin-offs that can assist in servirce development – User contacts – COPELABS has established protocols with potential user databases, e.g. local municipalities. |
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Contact: | Rute Sofia COPELABS Director http://copelabs.ulusofona.pt/~rsofia http://copelabs.ulusofona.pt/ rute.sofia@ulusofona.pt |
Strand interest: | Strands: 1, 2, 3, 4 | Pre-structuring Model Topic of interest | P7, P5, P6 / P8, P9 / P11 / P14 |
Proposer: | AIT – “Athens Information Technology” centre“Networks and Optical Communications” (NOC) research group | ||
Scope of competence being offered: |
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Additional Resources Offered : | – Large set of network and physical layer models for access networks and heterogeneous wireless, wireline transport technologies- Large number of highly performing novel algorithms for L2/L3 traffic processing, dynamic resource provisioning and QoS support with application awareness- A complete meta-MAC control framework, which encapsulates various PHY interfaces and enables fair inter-technology bandwidth allocation and resource management. (Meta-MAC can be tailored to work on top of constituent MAC protocols, and exploit virtual carrier and time frame resources as both finely granular and scalable bandwidth assignment units.)- Advanced laboratory infrastructure for system testing and measurements- Several FPGA processing modules t (XGPON framework, LDPC codes, accelerators, etc.)- Hardware/software co-simulation platform for hardware optimization (e.g. energy consumption, area, performance)- Techno-economic models for optical access networks and backhauling solutions | ||
Contact: | Ioannis Tomkos – Head of NOC group (email: itom@ait.gr, tel: +30 210 668 2771)Dimitrios Klonidis – Senior Research Fellow (email: dikl@ait.gr, tel: +30 210 668 2773) |
Strand interest: | Strand 1,2 | Pre-structuring Model Topic of interest | P1, P2, P7, P9 |
Proposer: | Name: Computer Technology Institute and Press “Diophantus” (CTI)Department: Research Unit 6 (RU6) / Research & Development Dept.Country: GreeceEntity type: Research, non-profit organization | ||
Scope of competence being offered: | The research work and the experience of RU6 team mainly focuses on radio resource management, multicast/broadcast services and small cells and could contribute to both the standardization and development phase of 5G networks. More specifically, it includes the following directions:• Introduction of new data coding techniques and sophisticated modulation schemes boosting the system’s spectral efficiency aiming at low cost spectrum exploitation• Massive distributed high-order spatial multiplexing (MIMO) also for small cells, achieving multi Giga-bps data rates towards the support of an anticipated 1000 fold mobile traffic increase• Heterogeneous architectures for multi-tier networks that combine macrocellular infrastructure with small cells and Wi-Fi deployments and advanced interference mitigation techniques and smart distributed mobility management that also considers the network heterogeneity, e.g., the existence of small cells or Wi-Fi access points• Network architectures including super-dense small cell layers that span at a room-level and achieve ultra-high bandwidth and minimum delay while at the same time they increase the radio access network capacity achieving at least a ten times increase in frequency reuse• Mobile TV, video and radio services provision over evolved mobile networks broadcasting and multicasting solutions• Optimization of small cells’ performance and connectivity through efficient backhaul integration and multi cell operations
• Combination of small cells and relay nodes under Self Organizing Networks (SON) concept, utilizing innovative schemes to solve deployment in heterogeneous networks • Development of system level and link level simulation software to experiment and evaluate the above technologies also with propagation and mobility models adapted to Internet-of-Things |
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Additional Resources Offered : | Research Unit 6 of CTI has conducted substantial research in generations until LTE-A leading to a large number to scientific publications. It has also implemented the following simulation environments:• Mechanisms for MBSFN performance improvement • An FFR mechanism• A framework that simulates small cell overlays integrated over macrocellular systems | ||
Contact: | Prof. Christos Bouras (Scientific Coordinator of RU6 of CTI)Phone: +30 2610 960375, +30 2610 996951Fax: +30 2610 969016E-mail: bouras@cti.grWebsite: http://ru6.cti.gr/mobile/5g.php |
Strand interest: | R&I Strand: 2) Convergence beyond last mile | Pre-structuring Model Topic of interest | P9, P10 |
Proposer: | Name: INTRACOM TELECOM Category: Telecommunication Systems VendorCountry: GreeceEntity type: Large company |
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Scope of competence being offered: | Expertise in: Protection at both radio-link level (hitless) and at system level, guaranteeing system configuration preservation, using one Cluster IP for elements control. Network layer control plane functionality (QoS implementation, Congestion Avoidance, Link aggregation, Spanning Tree, etc) based on relevant IEEE / MEF standards.Interested in: Access agnostic control, policy and charging mechanisms and protocols for dynamic establishment, configuration, reconfiguration and release of any type of resource in backhauling applications. Leveraging SDN technologies for backhauling applications. Satisfy heterogeneous requirements (e.g. Coverage, QoS, Availability, Resilience, Reliability and Security) of Control Applications. | ||
Additional Resources Offered : | Testing infrastructure with Spirent tester / Robot framework along with a number of programmed testing suites for automated tests especially for Networking and Radio Link throughputs features. | ||
Contact: | Dimitrios Kritharidis (dkri@intracom-telecom.com), Head, Research Projects, Broadband Systems & Wireless Technologies, Intracom Telecom |
Strand interest: | Stands 1,2,3, 4Cross strand | Pre-structuring Model Topic of interest | P2,P4,P6,P8,P9,P12,P14, |
Proposer: | B-COM (www.b-com.com) is one of the 8 French Technological Research Institutes launched by French government in 2010 and certified in 2012. B-Com is legally a private research foundation viewed as an SME by the European Commission. The objective of an IRT is to achieve excellence in the most competitive sectors such as Networks and Infrastructure technologies that will integrate the next generations of mobile, wired and wireless networks.B<>com is registered under PIC number n°948011362. | ||
Scope of competence being offered: | B-COM has its own R&D task forces with 3 labs dedicated to Networks & Security domain:- Network Interfaces dedicated to 5G fibre and radio (see http://b-com.com/en/innovation-fields/network-interfaces)
– Network Architecture dedicated to convergence and network function virtualization (see http://b-com.com/en/innovation-fields/future-networks-architecture) – Cloud Computing (see http://b-com.com/en/innovation-fields/cloud-computing) |
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Additional Resources Offered : | B-Com is :- Member of ETSI and take an active part in ETSI RRS working group
– Member of Networld2020 European Technology Platform – Attending member of GreenTouch consortium – Member of French Cyber-security cluster and Images & Réseaux cluster B-Com has close links with large companies (like Orange and TDF), as well as famous French academics (Telecom Bretagne, INSA, Supelec, IRISA, …) B-com is also operating testbeds with a large scope from HPC & Storage capacity to indoor/outdoor multi-RAT radio networks. |
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Contact: | Contact InformationXavier Priem, xavier.priem@b-com.com, +33 (0) 56 35 85 02
Michel Corriou, michel.corriou@b-com.com, +33 (0) 56 35 88 59 For strand n°1, Rodolphe Legouable, rodolphe.legouable@b-com.com, +33 (0) 2 56 35 88 42 For strands n°2-3-4, Philippe Bertin, philippe.bertin@b-com.com, , +33 (0) 2 56 35 88 58 |
Strand interest | 1,2,3 | Pre-structuring Model Topic of interest | P4, P7, P10, P11 |
Proposer: | SME | EBlink Wireless Fronthaul Technology | |
Scope of competence being offered: | Telecom | EBlink Provides Wireless Fronthaul multi-Gigabit links to connect the Base band unit to the Remote Radio unit and to connect C-RAN/local C-RAN to various Remote Radio units. The EBlink solution is suitable for very dense network deployments( small cells and macro cells) | |
Additional Resources Offered : | |||
Contact: | Walner SAINT-AUBIN | Walner.saint-aubin@e-blink.com |
Strand interest: |
Strands 3, 2 and 4 |
Pre-structuring Model Topic of interest | P10, P12 and P15 |
Proposer: | Optare Solutions, S.L. – Spanish SME – OSS/BSS Systems Integrator www.optaresolutions.com | ||
Scope of competence being offered: | Optare Solutions is a Spanish SME Systems Integrator specialised in OSS and BSS Systems for Telecom operators that was founded in 2002 by a group of experienced professionals. With more than 60 people, we offer Consulting Services, Develop and Deployment Projects and Training Services to help our Clients to streamline their Operation and Business Support Systems (OSS/BSS).
Optare Solutions main expertise is in Fulfilment and Assurance areas inside the OSS systems of the operators to provide management of Telco Services and Resources. These areas allow the operators capture and validate their customer orders, maintain service catalogs, perform service decomposition and orchestration, service fallout management, service and resource activation in heterogeneous networks, inventory management, service problem management with automatic diagnostics and the integration of third-party services and resources into the catalog of the operator. From the work with the telecom operators, Optare Solutions perfectly know the challenges and complexity that arise from the integration and management of different access technologies and protocols used to deploy fixed, satellite and heterogeneous wireless networks. The challenges addressed by Optare Solutions include the composition and orchestration of shared and third party services and resources; OSS SOA architecture definition; telecom processes definition and implementation E2E; optimization of telecom capacities; automatic configuration and deployment of services; data integrity and standardization between different OSS/BSS systems; service KPIs definition and SLA monitoring; QoS and QoE management and mapping; service use forecasting and data analytics to prevent Churn among others. |
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Additional Resources Offered : | Since 2005, Optare Solutions is an active member of the TMForum consortium, an organization with more than 800 members from the Telecom environment that promotes standards in OSS/BSS systems in the field of processes definition through the eTOM, uniformed Telco system data with the SID and integration platforms in OSS systems with the Frameworx initiative.
In 2013, Optare Solutions was named as “TMForum Outstanding Contributor” for our contribution to the development and maintenance of Shared Interface Infrastructure (SII) tooling, specifically the SOAP Generator, providing the new features on time and with a high level of quality. This work allow to move the SII tool forward in the Frameworx 12.5 and next releases. |
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Contact: | Antonio Vidal
Innovation Manager |
Strand interest: | Convergence beyond last mile, | Pre-structuring Model Topic of interest | P10 |
Proposer: | School of Engineering and Digital Arts, University of Kent | ||
Scope of competence being offered: | For content delivery, we are investigating device-to-device (D2D) based content delivery, in which the D2D communication serves as a “cell-tier” in the cellular network and contents can be cached by devices and distributed from the devices with caching to other devices. This D2D-based content delivery through distributed caching can efficiently localise the service, offload the traffic, reduce the E2E delay by taking D2D as the service broker and provide scalability. Currently, we are working on how to select devices for content caching and distribution according to the popularity of the contents. With the objective of satisfying the needs of the content and minimising the delay, the number and the location of the selected D2D devices for content caching and distribution are analysed in our work. | ||
Additional Resources Offered : | Outline any additional assets you could bring. (user contacts, sector relations, etc.) | ||
Contact: | Dr Huiling Zhu Lecturer (Assistant Professor) in Communications School of Engineering and Digital Arts University of Kent United Kingdom http://www.eda.kent.ac.uk/school/staff_detail.aspx?id=437 |