MICROWAVE PHOTONIC FOR EMERGING APPLICATIONS (Q3146342): Difference between revisions
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(Removed claim: summary (P836): MEMES (MEMES+MITIS) IS A COORDINATED PROJECT WITH THE AIM OF ADVANCING AND PROVIDING RESULTS OF GREAT RELEVANCE THROUGH THE APPLICATION OF MICROWAVE PHOTONIC TECHNOLOGY TO TWO EMERGING FIELDS IN INFORMATION TECHNOLOGY AND COMMUNICATIONS WITH A HIGH IMPACT: WIRELESS FIBER-RADIO CONVERGED NETWORKS AND ADVANCED METROLOGY TECHNIQUES. IN CONVERGED WIRELESS FIBER-RADIO NETWORKS, THE GLOBAL SCENARIO CONTEMPLATED IN THE PROJECT CORRESPONDS TO THE CEN...) |
(Created claim: summary (P836): MEMES (MEMES+MITIS) IS A COORDINATED PROJECT WITH THE AIM OF ADVANCING AND PROVIDING RESULTS OF GREAT RELEVANCE THROUGH THE APPLICATION OF MICROWAVE PHOTONIC TECHNOLOGY TO TWO EMERGING FIELDS IN INFORMATION TECHNOLOGY AND COMMUNICATIONS WITH A HIGH IMPACT: WIRELESS FIBER-RADIO CONVERGED NETWORKS AND ADVANCED METROLOGY TECHNIQUES. IN CONVERGED WIRELESS FIBER-RADIO NETWORKS, THE GLOBAL SCENARIO CONTEMPLATED IN THE PROJECT CORRESPONDS TO THE CENTR...) |
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MEMES (MEMES+MITIS) IS A COORDINATED PROJECT WITH THE AIM OF ADVANCING AND PROVIDING RESULTS OF GREAT RELEVANCE THROUGH THE APPLICATION OF MICROWAVE PHOTONIC TECHNOLOGY TO TWO EMERGING FIELDS IN INFORMATION TECHNOLOGY AND COMMUNICATIONS WITH A HIGH IMPACT: WIRELESS FIBER-RADIO CONVERGED NETWORKS AND ADVANCED METROLOGY TECHNIQUES. IN CONVERGED WIRELESS FIBER-RADIO NETWORKS, THE GLOBAL SCENARIO CONTEMPLATED IN THE PROJECT CORRESPONDS TO THE CENTRALISED RADIO ACCESS NETWORKS (C-RANS) WHICH WILL PLAY AN IMPORTANT ROLE IN SUSTAINING THE CONCEPT OF THE INTERNET OF THE FUTURE BY PROVIDING THE REQUIRED BANDWIDTH, FLEXIBILITY AND UPDATING CAPACITY NECESSARY TO SUPPORT THE INCREASE IN CAPACITY IN MOBILE COMMUNICATIONS WHOSE TREND BY 2018 EXPECTS TO REACH AN ADDED VALUE OF 15 EXABYTE/MONTH. THE ORIGINAL CONTRIBUTION OF MEMES IN THIS FIELD IS THE INTEGRATION OF RADIO-ON-FIBER TECHNIQUES TOGETHER WITH MULTIPLEXACION BY SPACE DIVISION USING MULTICORE FIBERS AND MULTIPLEXACION BY WAVELENGTH IN THE FRONTHAUL SEGMENT OF THE C-RANS IN ORDER TO IMPLEMENT A NEW C-ROFRAN PARADIGM THAT PROVIDES MULTI-SERVICE AND MULTI-USER OPERATION WITH RECONFIGURATION OF FLEXIBLE CAPACITY AND COOPERATION BETWEEN BASE STATIONS. IN THE FIELD OF ADVANCED METROLOGY TECHNOLOGY, TWO SCENARIOS WILL BE ADDRESSED: REFLECTOMETRIA OF LOW COHERENCE AND SENSING PARALLEL AND DISTRIBUTED. IN THESE AREAS, UNIQUE MICROWAVE PHOTONICS WILL BE USED TO DEVELOP A NEW GENERATION OF MEASURING SYSTEMS WHERE RADIO FREQUENCY AND MICROWAVE INTERFERENCE IS EXPLOITED ALONG WITH OPTIC INTERFERENCE TO PROVIDE MORE DEGREES OF FREEDOM AND IMPROVED STABILITY THAT CAN LEAD THESE SYSTEMS TO UNPRECEDENTED AND METRIOUS RESOLUTION PERFORMANCE WITH APPLICATIONS IN MEDICAL IMAGING SYSTEMS AND THE MONITORING OF CIVIL STRUCTURES. MEMES WILL EXPLOIT AND CAPITALISE ON THE UNIQUE EXPERIENCE, MATERIAL RESOURCES AND INTERNATIONAL LEADERSHIP OF THE TEAM IN THE FIELD OF MICROWAVE PHOTONICA. (English) | |||||||||||||||
Property / summary: MEMES (MEMES+MITIS) IS A COORDINATED PROJECT WITH THE AIM OF ADVANCING AND PROVIDING RESULTS OF GREAT RELEVANCE THROUGH THE APPLICATION OF MICROWAVE PHOTONIC TECHNOLOGY TO TWO EMERGING FIELDS IN INFORMATION TECHNOLOGY AND COMMUNICATIONS WITH A HIGH IMPACT: WIRELESS FIBER-RADIO CONVERGED NETWORKS AND ADVANCED METROLOGY TECHNIQUES. IN CONVERGED WIRELESS FIBER-RADIO NETWORKS, THE GLOBAL SCENARIO CONTEMPLATED IN THE PROJECT CORRESPONDS TO THE CENTRALISED RADIO ACCESS NETWORKS (C-RANS) WHICH WILL PLAY AN IMPORTANT ROLE IN SUSTAINING THE CONCEPT OF THE INTERNET OF THE FUTURE BY PROVIDING THE REQUIRED BANDWIDTH, FLEXIBILITY AND UPDATING CAPACITY NECESSARY TO SUPPORT THE INCREASE IN CAPACITY IN MOBILE COMMUNICATIONS WHOSE TREND BY 2018 EXPECTS TO REACH AN ADDED VALUE OF 15 EXABYTE/MONTH. THE ORIGINAL CONTRIBUTION OF MEMES IN THIS FIELD IS THE INTEGRATION OF RADIO-ON-FIBER TECHNIQUES TOGETHER WITH MULTIPLEXACION BY SPACE DIVISION USING MULTICORE FIBERS AND MULTIPLEXACION BY WAVELENGTH IN THE FRONTHAUL SEGMENT OF THE C-RANS IN ORDER TO IMPLEMENT A NEW C-ROFRAN PARADIGM THAT PROVIDES MULTI-SERVICE AND MULTI-USER OPERATION WITH RECONFIGURATION OF FLEXIBLE CAPACITY AND COOPERATION BETWEEN BASE STATIONS. IN THE FIELD OF ADVANCED METROLOGY TECHNOLOGY, TWO SCENARIOS WILL BE ADDRESSED: REFLECTOMETRIA OF LOW COHERENCE AND SENSING PARALLEL AND DISTRIBUTED. IN THESE AREAS, UNIQUE MICROWAVE PHOTONICS WILL BE USED TO DEVELOP A NEW GENERATION OF MEASURING SYSTEMS WHERE RADIO FREQUENCY AND MICROWAVE INTERFERENCE IS EXPLOITED ALONG WITH OPTIC INTERFERENCE TO PROVIDE MORE DEGREES OF FREEDOM AND IMPROVED STABILITY THAT CAN LEAD THESE SYSTEMS TO UNPRECEDENTED AND METRIOUS RESOLUTION PERFORMANCE WITH APPLICATIONS IN MEDICAL IMAGING SYSTEMS AND THE MONITORING OF CIVIL STRUCTURES. MEMES WILL EXPLOIT AND CAPITALISE ON THE UNIQUE EXPERIENCE, MATERIAL RESOURCES AND INTERNATIONAL LEADERSHIP OF THE TEAM IN THE FIELD OF MICROWAVE PHOTONICA. (English) / rank | |||||||||||||||
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Property / summary: MEMES (MEMES+MITIS) IS A COORDINATED PROJECT WITH THE AIM OF ADVANCING AND PROVIDING RESULTS OF GREAT RELEVANCE THROUGH THE APPLICATION OF MICROWAVE PHOTONIC TECHNOLOGY TO TWO EMERGING FIELDS IN INFORMATION TECHNOLOGY AND COMMUNICATIONS WITH A HIGH IMPACT: WIRELESS FIBER-RADIO CONVERGED NETWORKS AND ADVANCED METROLOGY TECHNIQUES. IN CONVERGED WIRELESS FIBER-RADIO NETWORKS, THE GLOBAL SCENARIO CONTEMPLATED IN THE PROJECT CORRESPONDS TO THE CENTRALISED RADIO ACCESS NETWORKS (C-RANS) WHICH WILL PLAY AN IMPORTANT ROLE IN SUSTAINING THE CONCEPT OF THE INTERNET OF THE FUTURE BY PROVIDING THE REQUIRED BANDWIDTH, FLEXIBILITY AND UPDATING CAPACITY NECESSARY TO SUPPORT THE INCREASE IN CAPACITY IN MOBILE COMMUNICATIONS WHOSE TREND BY 2018 EXPECTS TO REACH AN ADDED VALUE OF 15 EXABYTE/MONTH. THE ORIGINAL CONTRIBUTION OF MEMES IN THIS FIELD IS THE INTEGRATION OF RADIO-ON-FIBER TECHNIQUES TOGETHER WITH MULTIPLEXACION BY SPACE DIVISION USING MULTICORE FIBERS AND MULTIPLEXACION BY WAVELENGTH IN THE FRONTHAUL SEGMENT OF THE C-RANS IN ORDER TO IMPLEMENT A NEW C-ROFRAN PARADIGM THAT PROVIDES MULTI-SERVICE AND MULTI-USER OPERATION WITH RECONFIGURATION OF FLEXIBLE CAPACITY AND COOPERATION BETWEEN BASE STATIONS. IN THE FIELD OF ADVANCED METROLOGY TECHNOLOGY, TWO SCENARIOS WILL BE ADDRESSED: REFLECTOMETRIA OF LOW COHERENCE AND SENSING PARALLEL AND DISTRIBUTED. IN THESE AREAS, UNIQUE MICROWAVE PHOTONICS WILL BE USED TO DEVELOP A NEW GENERATION OF MEASURING SYSTEMS WHERE RADIO FREQUENCY AND MICROWAVE INTERFERENCE IS EXPLOITED ALONG WITH OPTIC INTERFERENCE TO PROVIDE MORE DEGREES OF FREEDOM AND IMPROVED STABILITY THAT CAN LEAD THESE SYSTEMS TO UNPRECEDENTED AND METRIOUS RESOLUTION PERFORMANCE WITH APPLICATIONS IN MEDICAL IMAGING SYSTEMS AND THE MONITORING OF CIVIL STRUCTURES. MEMES WILL EXPLOIT AND CAPITALISE ON THE UNIQUE EXPERIENCE, MATERIAL RESOURCES AND INTERNATIONAL LEADERSHIP OF THE TEAM IN THE FIELD OF MICROWAVE PHOTONICA. (English) / qualifier | |||||||||||||||
point in time: 12 October 2021
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Revision as of 14:58, 12 October 2021
Project Q3146342 in Spain
Language | Label | Description | Also known as |
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English | MICROWAVE PHOTONIC FOR EMERGING APPLICATIONS |
Project Q3146342 in Spain |
Statements
101,337.5 Euro
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202,675.0 Euro
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50.0 percent
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1 January 2015
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30 June 2018
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UNIVERSIDAD POLITECNICA DE VALENCIA
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46250
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MEMES (MEMES+MITIS) ES UN PROYECTO COORDINADO CON EL OBJETIVO DE AVANZAR Y PROPORCIONAR RESULTADOS DE GRAN RELEVANCIA MEDIANTE LA APLICACION DE LA TECNOLOGIA DE FOTONICA DE MICROONDAS A DOS CAMPOS EMERGENTES EN TECNOLOGIA DE LA INFORMACION Y COMUNICACIONES CON UN ALTO IMPACTO: REDES CONVERGENTES FIBRA-RADIO INALAMBRICAS Y TECNICAS DE METROLOGIA AVANZADA. EN REDES CONVERGENTES FIBRA-RADIO INALAMBRICAS, EL ESCENARIO GLOBAL CONTEMPLADO EN EL PROYECTO SE CORRESPONDE CON LAS REDES DE ACCESO RADIO CENTRALIZADAS (C-RANS) LAS CUALES JUGARAN UN PAPEL IMPORTANTE EN EL SOSTENIMIENTO DEL CONCEPTO DE INTERNET DEL FUTURO PROPORCIONANDO EL ANCHO DE BANDA REQUERIDO, FLEXIBILIDAD Y CAPACIDAD DE ACTUALIZACION NECESARIAS PARA SOPORTAR EL INCREMENTO DE CAPACIDAD EN COMUNICACIONES MOVILES CUYA TENDENCIA PARA 2018 PREVEE ALCANZAR UN VALOR AGREGADO DE 15 EXABYTE/MES. LA CONTRIBUCION ORIGINAL DE MEMES EN ESTE CAMPO ES LA INTEGRACION DE TECNICAS RADIO SOBRE FIBRA JUNTO CON LA MULTIPLEXACION POR DIVISION ESPACIAL UTILIZANDO FIBRAS MULTICORE Y MULTIPLEXACION POR LONGITUD DE ONDA EN EL SEGMENTO FRONTHAUL DE LAS C-RANS CON EL FIN DE IMPLEMENTAR UN NUEVO PARADIGMA C-ROFRAN QUE PROPORCIONE MULTISERVICIO Y OPERACION MULTIUSUARIO CON RECONFIGURACION DE CAPACIDAD FLEXIBLE Y COOPERACION ENTRE ESTACIONES BASE. EN EL CAMPO DE TECNICA DE METROLOGIA AVANZADA, SE ABORDARAN DOS ESCENARIOS: REFLECTOMETRIA DE BAJA COHERENCIA Y SENSADO PARALELO Y DISTRIBUIDO. EN ESTAS AREAS, LAS PROPIEDAS UNICAS DE FOTONICA DE MICROONDAS SERAN UTILIZADAS PARA DESARROLLAR UNA NUEVA GENERACION DE SISTEMAS DE MEDIDAS DONDE LA INTERFERENCIA DE RADIOFRECUENCIA Y MICROONDAS SE EXPLOTA JUNTO CON LA INTERFERENCIA OPTICA PARA PROPORCIONAR MAS GRADOS DE LIBERTAD Y UNA ESTABILIDAD MEJORADA QUE PUEDA CONDUCIR A ESTOS SISTEMAS A UN RENDIMIENTO SIN PRECEDENTES Y METRICAS DE RESOLUCION CON APLICACIONES EN SISTEMAS DE IMAGENES MEDICAS Y LA MONITORIZACION DE ESTRUCTURAS CIVILES. MEMES EXPLOTARA Y CAPITALIZARA LA EXPERIENCIA UNICA, RECURSOS MATERIALES Y LIDERAZGO A NIVEL INTERNACIONAL DEL EQUIPO DE TRABAJO EN EL CAMPO DE LA FOTONICA DE MICROONDAS. (Spanish)
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MEMES (MEMES+MITIS) IS A COORDINATED PROJECT WITH THE AIM OF ADVANCING AND PROVIDING RESULTS OF GREAT RELEVANCE THROUGH THE APPLICATION OF MICROWAVE PHOTONIC TECHNOLOGY TO TWO EMERGING FIELDS IN INFORMATION TECHNOLOGY AND COMMUNICATIONS WITH A HIGH IMPACT: WIRELESS FIBER-RADIO CONVERGED NETWORKS AND ADVANCED METROLOGY TECHNIQUES. IN CONVERGED WIRELESS FIBER-RADIO NETWORKS, THE GLOBAL SCENARIO CONTEMPLATED IN THE PROJECT CORRESPONDS TO THE CENTRALISED RADIO ACCESS NETWORKS (C-RANS) WHICH WILL PLAY AN IMPORTANT ROLE IN SUSTAINING THE CONCEPT OF THE INTERNET OF THE FUTURE BY PROVIDING THE REQUIRED BANDWIDTH, FLEXIBILITY AND UPDATING CAPACITY NECESSARY TO SUPPORT THE INCREASE IN CAPACITY IN MOBILE COMMUNICATIONS WHOSE TREND BY 2018 EXPECTS TO REACH AN ADDED VALUE OF 15 EXABYTE/MONTH. THE ORIGINAL CONTRIBUTION OF MEMES IN THIS FIELD IS THE INTEGRATION OF RADIO-ON-FIBER TECHNIQUES TOGETHER WITH MULTIPLEXACION BY SPACE DIVISION USING MULTICORE FIBERS AND MULTIPLEXACION BY WAVELENGTH IN THE FRONTHAUL SEGMENT OF THE C-RANS IN ORDER TO IMPLEMENT A NEW C-ROFRAN PARADIGM THAT PROVIDES MULTI-SERVICE AND MULTI-USER OPERATION WITH RECONFIGURATION OF FLEXIBLE CAPACITY AND COOPERATION BETWEEN BASE STATIONS. IN THE FIELD OF ADVANCED METROLOGY TECHNOLOGY, TWO SCENARIOS WILL BE ADDRESSED: REFLECTOMETRIA OF LOW COHERENCE AND SENSING PARALLEL AND DISTRIBUTED. IN THESE AREAS, UNIQUE MICROWAVE PHOTONICS WILL BE USED TO DEVELOP A NEW GENERATION OF MEASURING SYSTEMS WHERE RADIO FREQUENCY AND MICROWAVE INTERFERENCE IS EXPLOITED ALONG WITH OPTIC INTERFERENCE TO PROVIDE MORE DEGREES OF FREEDOM AND IMPROVED STABILITY THAT CAN LEAD THESE SYSTEMS TO UNPRECEDENTED AND METRIOUS RESOLUTION PERFORMANCE WITH APPLICATIONS IN MEDICAL IMAGING SYSTEMS AND THE MONITORING OF CIVIL STRUCTURES. MEMES WILL EXPLOIT AND CAPITALISE ON THE UNIQUE EXPERIENCE, MATERIAL RESOURCES AND INTERNATIONAL LEADERSHIP OF THE TEAM IN THE FIELD OF MICROWAVE PHOTONICA. (English)
12 October 2021
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Valencia
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Identifiers
TEC2014-60378-C2-1-R
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