(6G-ICARUS) - 6G Intelligent Connectivity And inteRaction for Users and infraStructures

(6G-ICARUS) - 面向用户和基础设施的 6G 智能连接和交互

• 批准号: EP/Z000122/1
• 负责人: Pavlos Lazaridis
• 金额: $ 17.37万
• 依托单位: University of Huddersfield
• 依托单位国家: 英国
• 项目类别: Research Grant
• 财政年份: 2024
• 资助国家: 英国
• 起止时间: 2024 至 无数据
• 项目状态: 未结题
• 来源: https://gtr.ukri.org/projects?ref=EP%2FZ000122%2F1
• 关键词: 6G; ICARUS; Intelligent; Connectivity; inteRaction

In the context of modern technologies, the transition to 6G networks faces numerous challenges; therefore, novel solutions must bediscovered, combined, and tested in order to achieve distributed smart connectivity, imperceptible latency, virtually infinite capacity,improved security/privacy, smart/adaptive networking, and energy efficiency. The 6G-ICARUS project will investigate, combine, andimprove on current technologies in order to address numerous obstacles that 6G networks will face in order to define the futurewireless networks (FWNs).6G-ICARUS is focused on FWNs capable of meeting a variety of targets, resulting in better geographic coverage, particularly in urbanareas, higher transmission rates, lower latency, provision of diverse services, processing of information generated from a massivevolume of heterogeneous sources, inherent resilience to counter potential security threats, and making intelligent decisions. 6GICARUSis founded on three pillars: (i) Effective utilisation of reconfigurable intelligent surfaces suitably controlled by artificialintelligence software; (ii) Channel modelling for mmWave/subTHz communications; (iii) Multi-connectivity solutions for 6G mobilecommunications.The project will generate novel research results as well as novel original hardware supported by innovative software (techniques,algorithms) based mostly on machine learning and deep learning. Hardware and software will be combined and examined in realworldsettings to fulfill certain situations, all of which are matched with real-world applications. There will be separate Proof ofConcept studies to validate the technologies and methodologies under consideration.

在现代技术的背景下，向6 G网络的过渡面临着许多挑战;因此，必须发现、组合和测试新的解决方案，以实现分布式智能连接、不可感知的延迟、几乎无限的容量、改进的安全性/隐私、智能/自适应网络和能源效率。6 G-ICARUS项目将研究、联合收割机并改进现有技术，以解决6 G网络在定义未来无线网络（FWN）时将面临的众多障碍。6 G-ICARUS专注于能够满足各种目标的FWN，从而实现更好的地理覆盖，特别是在城市地区，更高的传输速率，更低的延迟，提供多样化的服务，处理从异构源的复杂变化中生成的信息，应对潜在安全威胁的固有弹性，以及做出明智的决策。6 GICARUS基于三大支柱：（i）有效利用人工智能软件控制的可重构智能表面;（ii）毫米波/亚太赫兹通信的信道建模;（iii）6 G移动通信的多连接解决方案。该项目将产生新颖的研究成果以及新颖的原始硬件，并由主要基于机器学习和深度学习的创新软件（技术，算法）支持。硬件和软件将结合起来，并在现实环境中进行检查，以满足某些情况，所有这些都与现实世界的应用相匹配。将进行单独的概念验证研究，以验证正在考虑的技术和方法。