Strand interest: | Strand 3 & 4 | Pre-structuring Model Topic of interest | P11, P12, P13, P14, P15, P16 |
Proposer: | Space Hellas S.A. (SME) ICT system integrator and value-added services provider, www.space.gr | ||
Scope of competence being offered: | Monitoring solutions for IT/Cloud resources, specialized monitoring frameworks for NFV | ||
Additional Resources Offered : | Extensive expertise in FP5/6/7 projects, contacts with major telcos/vendors in Greece and across Europe | ||
Contact: | Dr. Georgios Gardikis, ggar@space.gr |
Strand interest: | 3,4 | Pre-structuring Model Topic of interest | P11, P12, P13, P14, P15, P16 |
Proposer: | TELETEL SA (www.teletel.eu), SME, GreeceTELETEL has around 20 years of experience in the testing, validation, QoS analysis and troubleshooting of new telecommunications protocols and networks. TELETEL has developed the iSAFT PVS, which is an advanced multi-platform environment for the early validation and analysis of communication systems and protocols. It has been widely used for testing various communication networks (ISDN, V5, SS7, IN, GSM, UMTS, VoIP, AFDX, SpW, MIL-STD-1553, CAN custom). iSAFT PVS is used worldwide by major communication systems manufacturers. | ||
Scope of competence being offered: | TELETEL offers iSAFT PVS for testing & validation as well as monitoring & protocol analysis of new networks, services and technologies including SDN, ICN, Network Virtualisation, Network management, Cloud Networking etc. TELETEL’s main products are part of the iSAFT product line, in which the resulted subsystems and tools will be exploited. | ||
Additional Resources Offered : | TELETEL has extensive experience in R&D projects in the FP6/FP7 programmes and a large portfolio of business partners in the telecoms domain including telcos, vendors etc. | ||
Contact: | Mr Vangelis Kollias (RTD@teletel.eu) |
Strand interest: | Strand 3 and 4 | Pre-structuring Model Topic of interest | P11, P12, P13, P14 |
Proposer: | MONTIMAGE, France (SME) | ||
Scope of competence being offered: | The core business of Montimage is developing tools for testing and monitoring networks, applications and services; in particular, for the verification of functional, performance (QoS/QoE) and security aspects; and, for improving context awareness and end-user trust. Montimage’s flagship tool (MMT) allows the capture of network packets, as well as any structured messages, for performing traffic analysis, analyzing security and detecting/mitigating security and performance incidents. It uses deep packet inspection (DPI), complex event correlation, statistics and machine learning techniques to classify traffic and to analyze its behavior. | ||
Additional Resources Offered : | Link to research European projects. e.g. Celtic+ SIGMONA(http://www.celtic-initiative.org/Projects/Celtic-Plus-Projects/2012/SIGMONA/sigmona-default.asp) | ||
Contact: | Edgardo Montes de Oca edgardo.montesdeoca@montimage.com |
Strand interest: | Strand 3, 4 | Pre-structuring Model Topic of interest | P11, P12, P15 |
Proposer: | Fondazione Ugo Bordoni (FUB) (type: not for profit research institute)http://www.fub.it/en | ||
Scope of competence being offered: | The FUB research team on User Aspects provides expertise on:- human factors, human computer interaction, user modelling, human performance evaluation, usability, user experience in different application sectors of ICT and mediated communication, scenario engineering and foresight methodologies,- socio-organisational research, design and development of trials involving end users in field and in laboratory, technology acceptance evaluation by the user, predicting models of user acceptance, microsimulation models of ICT adoption and diffusion.These skills have been applied in different research fields: e-inclusion of elderly people, domotics, training in crisis management emulated environment, T-government, digital television, distance learning, teleworking, telemedicine, videoconferencing, technology mediated interpersonal communication.Given the above expertise, we can contribute to 5G network virtualisation and to network and service management by realising experimentations involving users, performing user experience evaluations and usability tests. The expected impact is in modelling the service quality by the end-users and measuring the user experience within the context of 5G services. In particular our contribution can include:- Modelling classes of end-users for the participatory design and implementation of future 5G services (user requirements)- Human factors design of 5G systems/services by the UCD (User Centred Design) methodology, also contributing to the implementation of the technological platform by involving real-users- Design and realisation of trials with end-users in laboratory and on field, to evaluate the emerging 5G solutions in terms of user experience and user acceptance. | ||
Additional Resources Offered : | To realize experimental trials and tests, given its institutional role, FUB may access structures, laboratories and equipment made available by the Italian Public Administration.FUB can offer a significant network of contacts and relationships with private and public stakeholders in the field of telecommunications. As a body operating under the control of the Italian Ministry of Economic Development, we are at the core of a wide cooperative network, involving the Italian administration, international regulatory and standardisation bodies, telco operators and industries (mobile operators, manufacturers and consultants), universities and research institutions worldwide. | ||
Contact: | The researchers of the User Aspects team:Michele Cornacchia mcornacchia@fub.itEnrico Nicolò nic@fub.itFilomena Papa fpapa@fub.itBartolomeo Sapio bsapio@fub.it |
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. |
||
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. |
||
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. |
||
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, P11, P12, P13, P14, P16 |
Proposer: | TU Chemnitz (University), Chair for Communication Networks, Germany | ||
Scope of competence being offered: | Competencies:
Selected research activities:
Standardization activities:
|
||
Additional Resources Offered : | Lab equipment:
Software skills:
Link to European research projects:
|
||
Contact: | Prof. Dr.-Ing. Thomas Bauschert, thomas.bauschert@etit.tu-chemnitz.de, http://www.tu-chemnitz.de/etit/kn/ |
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: | Strand Network Management | Pre-structuring Model Topic of interest: P11-P12 |
Proposer: | INGENIA TELECOM (an Astellia company), www.ingenia-telecom.com | |
Scope of competence being offered: | Ingenia Telecom, an Astellia company, is a worldwide provider of network analysis and optimization solutions for mobile operators.Ingenia Telecom delivers professional solutions that significantly enhance network performance while allowing the operators to improve OPEX and CAPEX, no matter if they own a single or multi vendor RAN.Ingenia Telecom’s technology offers some of the most efficient and innovative methods to optimize GSM, UMTS and LTE networks, providing outstanding capabilities to improve network performance and customer experience.Ingenia Telecom’s solutions use the most sophisticated techniques in the market to provide an in-depth analysis of the network from a customer´s point of view, using real subscriber data and providing advanced troubleshooting and optimization recommendations that contribute to reach a top QoS and QoE. In addition, Ingenia Telecom provides innovative solutions for location and real data throughput measurement that will give additional value to the overall result.Ingenia Telecom R&D strategy is focused to cover SON pillars defined within the 3gpp. Nowadays, Self-Organizing Networks (SON) is seen as one of the promising area for an operator to save Operational expenditures. It’s important in that case to properly understand how the SON architecture addresses the Operator needs.3GPP has defined a set of common scenarios that aims to provide network intelligence, automation and network management features in order to automate the configuration and optimization of wireless networks to adapt to varying radio channel conditions, thereby lowering costs, improving network performance and flexibility.Based on above, Ingenia Telecom’s strategy is mainly focused on Access Network Optimization Automation involving advanced methods and processes that help Operators to reduce Optimization times to improve final Network Performance. Following this point, Ingenia Telecom would be very interested in P11 related to Cognitive Network Management which main impacts are related to OpEx Operator reduction and also improving QoS, user experience, etc…Related also to User Experience, Ingenia Telecom’s R&D strategy is also focused to define new Customer Centric Monitoring solutions that help Operators to better understand Customer behaviours. Related to this, P12 would be of interest for Ingenia Telecom. | |
Additional Resources Offered : | Strong knowledge in network monitoring and optimization for GSM/GPRS, EDGE, CDMA, UMTS and LTE technologyDeep knowledge in 3GPP signalingEnd-user / customer problem investigation and development of user-centred solutions.Customer Centric Monitoring & Optimization and solution development for final user’s perception of the network behaviourDefinition and evolution of the current UMTS optimization algorithms: overshooting, crossed-sectors, neighbour optimization, soft-handover, PSC planning.Definition and evolution of the current GSM optimization algorithms: overshooting, crossed-sectors, neighbour optimization, frequency planning.Advanced and proprietary optimization algorithmsEnd-user Quality of Experience (QoE) estimation based on network analysisLong Term Evolution technology inclusion in Network OptimizationPrevious outputs relevant to the strand:
neoAnalysis® the Post-Event Analysis Mode is a reference tool aimed to Analyze & Optimize Network parameters. It’s a multi-vendor and multi-technology tool which helps the engineers to take the proper decisions when configuring the network. neoSON® the Real-Time Analysis Mode is the ultimate Ingenia Telecom’s solution to self-optimize and self-organize your network. neoSON® is the natural evolution of neoAnalysis® providing open and closed loop actuations to impove the network performance and final User Experience. Available Equipment: Parser servers (9): 256 GB RAM 2xIntel Xeon E5-2690 2.90GHz Processor 4x1Gbps Ethernet port 2x500GB RAID1 SATA Hard Disks 3x900GB RAID5 SAS Hard Disks DB Servers (2): 512 GB RAM 4xIntel Xeon E5-2690 2.90GHz 2x500GB NL-SAS RAID1 Hard Disks 8Gbps FC HBA card Storage: 3PAR 7400-4 node cabinet 240x900GB SAS HDD in RAID 10 mode, about 90TB of RAID10 storage. |
|
Contact: | Óscar Gómez, Marketing & Communication ManagerMobile +34 600 591 723oscar.gomez@ingenia-telecom.com |
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:
|
||
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 |
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: |
|
||
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: | R&I Strand: 3) Network Management | Pre-structuring Model Topic of interest | P11, P12, P13 |
Proposer: | Name: INTRACOM TELECOM Category: Telecommunication Systems VendorCountry: GreeceEntity type: Large company |
||
Scope of competence being offered: | Policy management, network monitoring, control mechanisms, network configuration, traffic management, inter-domain collaboration, cooperative management, network economics, and incentives. Recent (FP7 SmoothIT) and current (FP7 SmartenIT) focus on peer-to-peer and cloud traffic management. Contribution to IETF ALTO. | ||
Additional Resources Offered : | Policy management product (ActionRuler) available as basis for prototyping and testing. Complete infrastructure for prototype implementation. | ||
Contact: | Spiros Spirou (spis@intracom-telecom.com), Project Manager, R&D Unit, Content Delivery Systems, Intracom Telecom |
Strand interest: | Strand 3, Cross strand | Pre-structuring Model Topic of interest | P11, P12 |
Proposer: |
MÁNTICA Solutions, SME, Telecom Testing & Monitoring and Quality Assurance http://www.mantica-solutions.com |
||
Scope of competence being offered: | QoS and Customer Experience Management for 4G & OTT | ||
Additional Resources Offered : | MÁNTICA has designed and implemented the first solution for E2E ACTIVE MONITORING of the QoS and QoE of GSMA Rich Communications (VoLTE and RCS)The solution allows telecom service providers: -To monitor in real-time the availability of IMS services -To monitor in real time the quality of the services and experience from the subscriber perspective -To automate the regression testing of IMS services -To enrich failure diagnosis and troubleshootingMoreover, ACTIVE MONITORING of IMS services can be offered As a Service, from a monitoring CLOUD; hence, operator only needs a subscription to the monitoring service without having to invest in, deploy or manage any hardware in their networks like agents or probes.Potential proposal ideas/lines of interest:1.- Cognitive Functions for provisioning, optimization and troubleshooting: – Subscriber Provisioning Assurance: check the whole business process and perform a cross elements analysis in order to prevent issues. 2 step: 1) Discovering issues actively, 2) Fixing issues actively – Intelligent/Enriched Diagnosis and Troubleshooting: combination of e2e active testing&monitoring (agents) and passive monitoring (probes) 2.- QoE-driven adaptive Service Level Management – Effective QoE-aware QoS model for 5G environments for the end to end optimization of user-perceived service quality |
||
Contact: | innovation@mantica-solutions.com |
Strand interest: | Strand 3 | Pre-structuring Model Topic of interest | P12 |
Proposer: | Fondazione Ugo Bordoni (FUB) (type: not for profit research centre) Transport Information Competence Centre http://www.fub.it/en | ||
Scope of competence being offered: | Our research group may offer its expertise in the development, analysis and evaluation of QoS and QoE for different applications. In particular:- QoS techniques In the recent years FUB has developed a deep expertise on QoS analysis. Extensive research activities have been carried out in the study of the quality of service on both protocol levels: network level (routing algorithms), and application level (algorithms for channel coding). In particular the study of the QoS has provided as main output the reliable data collect relating to the National mapping of the Internet.– M2M communication protocol – Investigation on suitable protocol solutions able to satisfy the trade-off between power consumption (main constraints of sensor devices) and QoS required for different application (i.e. monitoring application, alert application, low data or multimedia application, etc.) . The opposite requirements lead to consider for the sensor networks design different transmission technologies (i.e. RFID, IEEE802.15.4, IEEE802.11.x, optic, acoustic communications) and different routing algorithms (energy-aware driven, end-to-end delay driven) according to the different application and traffic types (i.e. underwater monitoring, logistics monitoring in smart cities applications, multimedia wireless sensor network for real-time traffic delivery) The consolidated expertise in this field could be employed to investigate M2M and sensor communication by using 5G technology in order to analyse and test network performance for different application scenarios.- Cloud Computing – QoS for SaaS Cloud applications – UNI SLAs. Definition of Universal Network Interface between ISP networks that is able to exchange traffic according to predefined SLAs . The aim of this activity is to identify the characteristics of cloud computing and to study new aspects of quality of transport and information necessary for its implementation, and its exploitation. In addition, this research activity, based on extensive Cloud Computing experimentations, permitted to respond to the European Digital Agenda 2020 requirements. Specifically, European Digital Agenda suggest creating all needed conditions for citizens and/or businesses to take benefit coming from cloud computing infrastructure (i.e. Data Center).Specifically, we can contribute to the achievement of expected impacts set out in the pre-structuring model for P12:- To increase the experience and service quality by means a dynamic path control within the network. A set of rules could be implemented according to services constraints in terms of QoE that can be provided dynamically as a function of current QoS network availability. For an instance, a longest path could be chosen instead of a shortest one due to current traffic congestion. – To increase network-aware services and QoE-based management by means of novel approach of Qos based on intelligent routing techniques using software control plane. Such an approach provide to manage QoS according to the type of services guaranteeing QoE to end-users. |
||
Additional Resources Offered : | The expertise developed in MisuraInternet project (in relation with Italian NRA) in QoS enforcement using policies and SLAs could be replicated to map the state of the underlying network infrastructure and to analyze the QoS of 5G networks. In particular, backhauling traffic and backbone traffic could be managed according to services networks requirements. We also have a consolidated experience of crownsourcing measurements campaigns due to a certificated software (Ne.Me.Sys. – Network Measurement System – developed by FUB) that allow to collect a huge number of samples giving a national broadband picture and the improving network conditions in terms of QoS and coverage among time (https://www.misurainternet.it/).We also have a well established tradition in interfacing with end-users (communication campaigns, websites for management of user complaints, etc.).Finally, we have a fully equipped van and trained personnel for performing mobile internet QoS measurements in various conditions (with stationary or moving vehicle, downlink/uplink, considering different service request patterns, etc.). | ||
Contact: | Luca Rea – Head of Transport Information Competence Centre lrea@fub.it Samuela Persia – Researcher spersia@fub.it |
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. |
||
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. |
||
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. |
||
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: | S4, S3 | Pre-structuring Model Topic of interest | P16, P12, CSA |
Proposer: | Budapest University of Technology and Economics (BME), Budapest, Hungary | ||
Scope of competence being offered: | BME is active in three major areas of research and innovation activities relevant to 5GPPP. First, BME offers hands-on expertize in Software-Defined Networking (SDN) with a focus on virtualization, end-to-end service programmability, fast prototyping, open-source solutions and live demonstrations. Second, BME has a strong track record in core networking research, especially in network infrastructure resilience (IP-level, multi-domain, optical, etc.) and routing (IP Fast ReRoute, multi-domain, router virtualization, etc.). Third, BME conducts research in the socio-economic aspects of networking with an emphasis on multi-stakeholder cooperation and competition scenarios, incentive-compatible mechanisms, and how technology impacts society.Accordingly, we have identified three specific activities in P16 we would like to contribute to.
Since a multi-domain/operator environment changes the playing field with regard to SLAs, we foresee that topic 2 could also be pursued in a research-oriented direction in P12. Furthermore, BME offers its competence in the socio-economic impact assessment of ICT (as demonstrated in leading the corresponding task in FP7 EARTH on energy efficiency) to be used at the 5GPPP level in CSA. Relevant recent projects FP7 UNIFY: Unifying Cloud and Carrier Networks. Unified programmability framework for the integrated control and management of cloud and network resources. GEANT OpenFlow competition: winner. Network resiliency in the transport layer with the help of OpenFlow and Multipath TCP. FP7 ALLEGRA@OpenLab: extending FIRE testbeds and tools. Winner of the first Open Call. Large-scale experiments on geo-location aware greedy routing architecture using OpenFlow. FP7 EARTH: Energy Aware Radio and neTwork tecHnologies. Leading the efforts on socio-economic impact assessment. FP6 AMBIENT NETWORKS: Instant negotiation of service agreements among cooperating market players Selected recent publications (related activity number in parentheses) (1)A. Csoma, B. Sonkoly, L. Csikor, F. Németh, A. Gulyás, W. Tavernier, S. Sahhaf, ESCAPE: Extensible Service ChAin Prototyping Environment using Mininet, Click, NETCONF and POX, ACM SIGCOMM 2014 Demo. (1,2)A. Csoma, B. Sonkoly, L. Csikor, F. Németh, A. Gulyás, D. Jocha, J. Elek, W. Tavernier, S. Sahhaf, Multi-layered service orchestration in a multi-domain network environment, EWSDN 2014 Demo. (1)P. Sköldström, B. Sonkoly, A. Gulyás, F. Németh, M. Kind, F. Westphal, W. John, J. Garay, E. Jacob, D. Jocha, J. Elek, R. Szabó, W. Tavernier, G. Agapiou, A. Manzalini, M. Rost, N. Sarrar, S. Schmid, Towards Unified Programmability of Cloud and Carrier Infrastructure, EWSDN 2014. (1) F. Németh, B. Sonkoly, L. Csikor, and A. Gulyás, A Large-Scale Multipath Playground for Experimenters and Early Adopters. ACM SIGCOMM Demo, 2013. (2) J. Tapolcai and G. Rétvári. Router virtualization for improving IP-level resilience. INFOCOM 2013. (1,2) F. Németh, B. Sonkoly, A. Gulyás, L. Csikor, J. Tapolcai, P. Babarczi, G. Rétvári, Improving resiliency and throughput of transport networks with OpenFlow and Multipath TCP: Demonstration of results over the Géant OpenFlow testbed, ONS Open Networking Summit 2013. (1) F. Németh, Á. Stipkovits, B. Sonkoly, A. Gulyás: Towards SmartFlow: Case Studies on Enhanced Programmable Forwarding in OpenFlow Switches, ACM SIGCOMM Demo, 2012. (CSA) G. Biczók (ed.), Economic and Ecological Impact of ICT, FP7 EARTH Deliverable D2.1, 2011. (CSA) A. Fehske, J. Malmodin, G. Biczok, G. Fettweis: The Global Footprint of Mobile Communications: the Ecological and Economic Perspective, IEEE Comm Mag, 49(8):55-62, August 2011. (3) G. Biczók, L. Toka, A. Gulyás, T. A. Trinh, A. Vidács, Incentivizing the global wireless village, Computer Networks, 55(2):439-456, Elsevier, February 2011. (3) D. Trossen, G. Biczok, Not paying the truck driver: differentiated pricing for the future internet. ReARCH ’10, 2010. (2) A. Császár, G. Enyedi, M. Hidell, G. Rétvári, and P. Sjödin. Converging the evolution of router architectures and IP networks. IEEE Network Magazine, Special Issue on Advances in Network Systems Architecture, 21(4):8-14, July 2007. |
||
Additional Resources Offered : | – Own feature-rich SDN testbed– Substantial SDN-related prototype implementation experience and community connections– Expertize in designing and presenting live demos at premier technical conferences (Open Networking Summit; ACM SIGCOMM, IEEE INFOCOM) | ||
Contact: | Gergely Biczók – biczok@tmit.bme.huCsaba Simon – simon@tmit.bme.hu |
Strand interest: | Stands 1,2,3, 4
Cross 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) |
||
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. |
||
Contact: | Contact Information
Xavier 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: | Strand 3 | Pre-structuring Model Topic of interest | P13: 5G network security and integrity |
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 |
||
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 3, RFSAT has been active in cyber security research, focussing on intrusion detection and prevention, resilience against attacks both on networking infrastructure and end-points, enhancements of secure communication methodologies, vulnerability testing and heuristic approaches to detection of new threats. RFSAT pursues those directions as part of the TA7 group on Cyber-security and TA4 on Prevention, parts of the Integrated Mission Group for Security (IMG-S) http://img-s.eu, supporting the European Commission in the development of “Secure Societies” Work Programs of the Horizon’2020 program. Our role in this topic would be both in active research and development of new approaches to securing 5G architectures and services deployed on it and in bringing in external expertise of other entities working on cyber-security under IMG-S-TA7. We would bring also similar expertise in “physical” protection approaches from IMGS-TA4. | ||
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. |
||
Contact: | Mrs Emmanouela VOGIATZAKI Director / R&D Projects Manager Email: RTD@rfsat.com WEB: http://www.rfsat.com |