Description du projet Broadband for allPhotonic Integrated Extended Metro and Access NetworkMain Objectives:The technical objectives of the PIEMAN project are to build a radically new photonic (all-optical) communication system which will allow individual customers to directly access bandwidths at up to 10 Gbit/s upstream and downstream. At the same time it will integrate access and metro into one system, thereby greatly simplifying the network architecture and so significantly reducing the cost to deliver future broadband services to all residential and SME customers.In the state-of-the-art the access and metro portions of the network are provided by separate systems. As bandwidths grow this traditional approach of separate access and metro networks will become prohibitively expensive:-* from a capex viewpoint due to the large number of network elements and interfaces to interconnect them and* from an opex viewpoint due to network design complexity, large number of network elements, large footprint and high electrical power consumption.PIEMAN therefore proposes a new generation of photonic communication system which integrates access and metro into one system. In order to achieve this for European national geographies requires a reach of ~100 km from the customer to the major service node. There will typically be ~100 major service nodes in a typical European network. The ~100 km reach is to enable full coverage and the option of dual parenting for resilience. To deploy point-to-point fibre from each customer to the service node up to ~100 km away would be prohibitively expensive. PIEMAN will therefore use multi-wavelength, high split passive optical networks (PONs) to make efficient use of fibre. The first generations of PONs are now standardised and commercially available. The most advanced of these (GPON and GE-PON) typically offer 2.4 Gbit/s downstream and 1.2 km upstream, shared between 32 customers (via passive optical splitters and a TDMA protocol), over a reach of up to 20km. PIEMAN will perform physical layer research aimed at a new generation of PON with features totally beyond the capability of today’s PONs:-* Bandwidth per customer of 10 Gbit/s downstream and 10 Gbit/s upstream* Each 10 Gbit/s wavelength is shared by up to 512 customers* Significant use of DWDM to provide further fibre efficiency – up to 32 wavelengths each carrying 10 Gbit/s. The project will therefore take a hybrid WDM/TDMA approach* All-optical reach of 100 km using optical amplifiers. No use of optical-electrical-optical conversions at intermediate locations.While the PIEMAN architecture will support fibre-to-the-premises it will also as evolutionary steps be capable of feeding hybrid architectures such as fibre-to-the-cabinet. The focus of the PIEMAN project will be in the physical layer where some major challenges lie. Higher layer and MAC protocols will be studied in parallel within complementary IST project MUSE.Technical ApproachThe PIEMAN project is structured in four technical workpackages (WPs) corresponding to different key technical challenges and solutions. An additional workpackage is dedicated to project management. * WP1 “Architecture and overall system design” will set, review and maintain the overall technical direction of the project. It will also deal with dissemination of results via standardization, publication and conferences.* WP2 “10 Gbit/s PON optoelectronics” focuses on the major challenge of achieving upstream burst mode operation of a PON at 10 Gbit/s with amplified reach of 100km.* WP3. “Tunable ONU” will investigate a wavelength tunable 10 Gbit/s transmitter capable of achieving access cost targets when manufactured in volume. Afficher les objectifs du projet Masquer les objectifs du projet PIEMAN will perform ambitious physical layer research into a future broadband optical access system with capability well beyond what is achievable today. The objective is a 100 km reach photonic network which will integrate access and metro into one system, whereas today access and metro are provided by separate systems. PIEMAN will therefore greatly simplify network architectures and so reduce costs. The PIEMAN system will be an evolution from today's passive optical networks and will offer multiple wavelengths each carrying 10 Gbit/s upstream and downstream. The upstream direction is especially challenging at 10 Gbit/s: a factor of ten faster than any passive optical network to date. The system will be all-optical between the user and the service node ~100 km distant. Radical new techniques will be studied to allow cost-effective, tunable wavelength 10 Gbit/s transmitters in the customer premises. Champ scientifique engineering and technologyelectrical engineering, electronic engineering, information engineeringinformation engineeringtelecommunicationstelecommunications networksoptical networks Programme(s) FP6-IST - Information Society Technologies: thematic priority under the specific programme "Integrating and strengthening the European research area" (2002-2006). Thème(s) IST-2004-2.4.4 - Broadband for All Appel à propositions FP6-2004-IST-4 Voir d’autres projets de cet appel Régime de financement STREP - Specific Targeted Research Project Coordinateur BRITISH TELECOMMUNICATIONS PLC Contribution de l’UE € 340 684,00 Adresse 1 BRAHAM STREET E1 8EE London Royaume-Uni Voir sur la carte Région London Inner London — East Tower Hamlets Type d’activité Private for-profit entities (excluding Higher or Secondary Education Establishments) Liens Contacter l’organisation Opens in new window Site web Opens in new window Coût total Aucune donnée Participants (6) Trier par ordre alphabétique Trier par contribution de l’UE Tout développer Tout réduire INTERUNIVERSITAIR MICRO-ELECTRONICA CENTRUM Belgique Contribution de l’UE € 565 000,00 Adresse KAPELDREEF 75 3001 Leuven Voir sur la carte Région Vlaams Gewest Prov. Vlaams-Brabant Arr. Leuven Type d’activité Research Organisations Liens Contacter l’organisation Opens in new window Site web Opens in new window Coût total Aucune donnée NOKIA SOLUTIONS AND NETWORKS GMBH &CO KG Allemagne Contribution de l’UE € 136 871,00 Adresse WERINHERSTRASSE 91 81541 Munchen Voir sur la carte Région Bayern Oberbayern München, Kreisfreie Stadt Type d’activité Private for-profit entities (excluding Higher or Secondary Education Establishments) Liens Contacter l’organisation Opens in new window Coût total Aucune donnée SIEMENS AKTIENGESELLSCHAFT Participation terminée Allemagne Contribution de l’UE € 0,00 Adresse WERNER-VON-SIEMENS-STR. 1 80333 Munchen Voir sur la carte Région Bayern Oberbayern München, Kreisfreie Stadt Type d’activité Private for-profit entities (excluding Higher or Secondary Education Establishments) Liens Contacter l’organisation Opens in new window Site web Opens in new window Coût total Aucune donnée ALCATEL-LUCENT DEUTSCHLAND AG Allemagne Contribution de l’UE € 136 545,00 Adresse LORENZSTRASSE 10 70435 STUTTGART Voir sur la carte Type d’activité Private for-profit entities (excluding Higher or Secondary Education Establishments) Liens Contacter l’organisation Opens in new window Site web Opens in new window Coût total Aucune donnée UNIVERSITY COLLEGE CORK - NATIONAL UNIVERSITY OF IRELAND, CORK Irlande Contribution de l’UE € 402 600,00 Adresse WESTERN ROAD T12 YN60 Cork Voir sur la carte Région Ireland Southern South-East Type d’activité Higher or Secondary Education Establishments Liens Contacter l’organisation Opens in new window Site web Opens in new window Coût total Aucune donnée THE CENTRE FOR INTEGRATED PHOTONICS LIMITED Royaume-Uni Contribution de l’UE € 618 300,00 Adresse B55 ADASTRAL PARK, MARTLESHAM HEATH IP5 3RE IPSWICH, SUFFOLK Voir sur la carte Région East of England East Anglia Suffolk Type d’activité Private for-profit entities (excluding Higher or Secondary Education Establishments) Liens Contacter l’organisation Opens in new window Coût total Aucune donnée