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HORIZON-JU-SNS-2023-STREA...
HORIZON-JU-SNS-2023-STREAM-B-01-02: Wireless Communication Technologies and Signal Processing
Expected Outcome:The target outcomes include:
Sólo fondo perdido 0 €
Europeo
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Presentación: Consorcio Consorcio: Esta ayuda está diseñada para aplicar a ella en formato consorcio.
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Esta ayuda financia Proyectos:

Expected Outcome:The target outcomes include:

Wireless technologies and systems capable to meet expected 6G radio capabilities such as Tbps data throughput, sub-ms latency, extremely high reliability, massive mMTC, extreme energy and spectrum efficiency, very high security, and cm-level accuracy localisation, across a range of frequency bands mostly focusing on up to millimetre wave solutions.Innovative RAN (Radio Access Network) solutions supporting multi-band operation, wireless caching, and integrated communication sensing techniques.Technologies enabling support of new higher efficiency mobile communication approaches, such as cell free networking, massive MIMO or Large Intelligent Surfaces with capability to drastically reduce energy consumption and to control EMF exposure levels.Applicability and validation of innovative AI/ML based architectures to control adaptive L1/L2 functions with optimised feedback control and operations.Solutions enabling entire new wireless application domains and based on integration of wireless communications and sensing.Solutions to optimise sustainability issues, including energy efficiency visual acceptability and minimisation of ur... ver más

Expected Outcome:The target outcomes include:

Wireless technologies and systems capable to meet expected 6G radio capabilities such as Tbps data throughput, sub-ms latency, extremely high reliability, massive mMTC, extreme energy and spectrum efficiency, very high security, and cm-level accuracy localisation, across a range of frequency bands mostly focusing on up to millimetre wave solutions.Innovative RAN (Radio Access Network) solutions supporting multi-band operation, wireless caching, and integrated communication sensing techniques.Technologies enabling support of new higher efficiency mobile communication approaches, such as cell free networking, massive MIMO or Large Intelligent Surfaces with capability to drastically reduce energy consumption and to control EMF exposure levels.Applicability and validation of innovative AI/ML based architectures to control adaptive L1/L2 functions with optimised feedback control and operations.Solutions enabling entire new wireless application domains and based on integration of wireless communications and sensing.Solutions to optimise sustainability issues, including energy efficiency visual acceptability and minimisation of urban visual pollution. Objective:Please refer to the "Specific Challenges and Objectives" section for Stream B in the Work Programme, available under ‘Topic Conditions and Documents - Additional Documents’.

Scope:Note: The focus of this Strand is on techniques to improve the performance of radio links and systems for 6G communications. Physical layer of THz communications has been extensively covered by projects selected in the first SNS call and is subsequently not expected to be a strong focus for this topic. Moreover, the scope covers the design of 6G RAN systems. The focus of this Strand is on several complementary issues mentioned below and applicants may select one or more of those:

New physical layer technologies up to millimeter wave. This includes both new channel modulation and coding schemes, new adaptive waveform designs, and advanced link-layer random and multiple access strategies, this includes non-orthogonal approaches (e.g., NOMA, RSMA). Support to innovative channel coding approaches towards “error free” channel transmission up to millimeter wave for technologies, including signal shaping loss removal. It should solve current bottlenecks in implementation issues such as computational complexity, algorithm parallelisation, energy efficiency, etc. whilst supporting (potentially cumulatively, depending on the scenario) extremely high throughput (hundreds of Gigabits per second); low latency; high reliability; and extreme low latency. It should also support scalability of future Machine Type Communication with minimum protocol overhead and energy consumption. Solutions should be compatible with increasingly massive MIMO-implementations and contribute to the future modulation and coding schemes, possibly mixing data-driven and model-driven approaches, as required for 6G, retaining reliable, energy-efficient characteristics.Extreme exploitation of MIMO technologies up to millimeter wave range. This includes ultra-massive MIMO and distributed and cell-free massive MIMO (including intelligent reflecting surfaces). The work should encompass distributed implementations of (potentially cell-free) massive MIMO encompassing a very large number of antennas, with centralized and distributed algorithms for coordinated transmission/reception, involving large numbers of users and considering implementable MIMO predistortion for wideband massive arrays. Human-friendly Radio systems: Support innovative antenna and physical layer technology for higher acceptability of radio infrastructures by citizens. It covers new antennas and new antenna systems, including antennas arrays (e.g. massive MIMO systems), that need to visually blend seamlessly in the urban landscape through use of new designs, in the context of an increased density of base stations and more complex antennas to support higher frequency ranges. It also covers antenna systems for EMF control and awareness to minimise human exposure.Spectrum Re-farming and Reutilisation: Support future high bandwidth demand and versatile spectrum usage requirements by multiplicity of applications through optimised spectrum management, sharing and dynamic application aware allocation. It covers spectrum reutilisation between RAT’s, including NTN access, and addresses new THz spectrum. Novel approaches with use of AI/ML technology for real-time spectrum efficiency is in scope. It also covers specific sharing scenarios for unlicensed spectrum use, and fundamental work on these challenges for new Terahertz bands will also be needed.Seamless integration of multiple frequency bands across a unified energy, EMF, and spectrum efficient framework including unlicensed bands and potential optical access. Open and disaggregated solutions may be considered also in scope.Machine learning empowered physical layer evolutions: The ambition is to develop an overall enhanced RAN adaptive and intelligent, with complexity increasing at the Radio Unit (RU) end, moving towards semantic-oriented communications. The scope aims to cover the overall physical layer, and the associated radio building blocks and communication protocols, with reduced complexity in the neural network modelling of multidimensional nonlinear effects.Optimal usage of wireless edge caching: The ambition is in developing advanced methods and protocols, including concepts able to improve radio link KPIs, such as energy efficiency, spectral efficiency, capacity, throughput, reliability, quality of experience (QoE), or investigate promising over-the-air computing paradigms.Novel techniques for integrated sensing and communication: the goal is for radical communication work to be complemented by work in the field of location and sensing capabilities for devices. The work requires radical new distributed and cooperative sensing, sensing aided communications, and multi-band sensing technology, as well as integrated waveform design. ver menos

Temáticas Obligatorias del proyecto: Temática principal:

Características del consorcio

Ámbito Europeo : La ayuda es de ámbito europeo, puede aplicar a esta linea cualquier empresa que forme parte de la Comunidad Europea.
Tipo y tamaño de organizaciones: El diseño de consorcio necesario para la tramitación de esta ayuda necesita de:

Características del Proyecto

Requisitos de diseño: Duración:
Requisitos técnicos: Expected Outcome:The target outcomes include: Expected Outcome:The target outcomes include:
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Madurez tecnológica: La tramitación de esta ayuda requiere de un nivel tecnológico mínimo en el proyecto de TRL 4:. Los componentes que integran determinado proyecto de innovación han sido identificados y se busca establecer si dichos componentes individuales cuentan con las capacidades para actuar de manera integrada, funcionando conjuntamente en un sistema. + info.
TRL esperado:

Características de la financiación

Intensidad de la ayuda: Sólo fondo perdido + info
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Para el presupuesto subvencionable la intensidad de la ayuda en formato fondo perdido podrá alcanzar como minimo un 100%.
The funding rate for RIA projects is 100 % of the eligible costs for all types of organizations. The funding rate for RIA projects is 100 % of the eligible costs for all types of organizations.
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Información adicional de la convocatoria

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