SPP 1655: Wireless Ultra-High Speed Communication for Mobile Internet Access: "Wireless 100 Gb/s and beyond"

SPP 1655：移动互联网接入的无线超高速通信：“无线100 Gb/s及以上”

• 批准号: 220133744
• 金额: --
• 依托单位: Leibniz-Institut für innovative Mikroelektronik (IHP GmbH)
• 依托单位国家: 德国
• 项目类别: Priority Programmes
• 财政年份: 2013
• 资助国家: 德国
• 起止时间: 2012-12-31 至 2019-12-31
• 项目状态: 已结题
• 来源: https://gepris.dfg.de/gepris/projekt/220133744?language=en
• 关键词: SPP; 1655; Wireless; Ultra; Speed

Wireless communication is becoming more and more a key technology for many economic areas. While during the last 20 years mainly the communication industry itself profited from the stable growth increasingly also areas like e.g. embedded systems, industrial automation, automotive communication, medical technologies, environmental monitoring and interconnect technologies profit from the new wireless approaches. The most obvious advantage of wireless technologies is its high flexibility and enabling function for mobility. The importance of wireless communication will even more increase with the introduction of cloud computing and network attached storages since the network access must be insured at any time and with extreme low access latencies. The big economic importance of wireless technology brings it into the driving position of research and development in the areas of semiconductor circuits, microelectronics, signal processing, embedded systems design and communication technologies. Inventions and achievements in the area of wireless communication are the benchmark for other technology developments. The OFDM technologies, e.g., have been taken over from pure wireless communication to fiber based communication systems to increase the speed and quality there as well. This Priority Programme addresses a completely new speed-area of wireless communication of 100 Gb/s and beyond. Such communication speed was until now completely reserved for fiber based systems. To achieve such high data rates we have to investigate new paradigms for system architectures, find new algorithmic and technological methods and to realise new semiconductor components. The individual research project will investigate different approaches and methods based on fundamental basic research questions. The programme is highly interdisciplinary since a close cooperation between semiconductor physics, microelectronics, RF-engineering, signal processing, information theory and computer science will be necessary. Especially new paradigms for the overall system structure into HW- and SW-components as well as into digital and analog blocks are in the focus of research. Energy efficiency of the wireless transmission is of utmost importance. New, highly integrated semiconductor technologies and integration concepts will be necessary for any chance of successful system design. Several synergies with research areas of the architectures of embedded systems, electronic circuit design, systems interconnect, protocol design are to be expected. The Priority Programme also addresses the education and scientific qualification process. Especially, we want to support and qualify female academics and motivate to deliver top research results in the proposed research area. Family friendly offers in project conduction as well as special seminars shall support this. The interdisciplinary education shall be achieved by organising special seminars and summer schools. The Priority Programme will be conducted in individual projects and project-clusters. The overall programme management shall allow for efficient inter project communication and, if necessary, inter project coordination. Communication both within the programme as well as with other activities within the European and worldwide research will be organised. The leading role of the German research in the area of wireless communication will be ensured and strengthened by this programme. This will make Germany attractive for key-scientists from all over the world. Last but not least applications of ultra-high speed communication can be made understood by a broad publicity and will lead more young people to take up carriers in technical subjects. Especially the ambition of the programme to go beyond 100 Gb/s and to go new ways to achieve this will lead to a significant advantage for the German industry to regain the lead position in this high technology area.

无线通信越来越成为许多经济领域的关键技术。在过去的20年里，通信行业本身主要受益于稳定的增长，而嵌入式系统、工业自动化、汽车通信、医疗技术、环境监测和互连技术等领域也越来越多地受益于新的无线方法。无线技术最明显的优势是其高度灵活性和移动性功能。随着云计算和网络附加存储的引入，无线通信的重要性将进一步增加，因为网络访问必须随时得到保证，并且具有极低的访问延迟。无线技术的巨大经济重要性使其在半导体电路、微电子、信号处理、嵌入式系统设计和通信技术领域的研究和开发中处于主导地位。无线通信领域的发明和成就是其他技术发展的基准。OFDM技术，例如，已经从纯无线通信转移到基于光纤的通信系统，以提高速度和质量。这一优先计划涉及100 Gb/s及以上的全新无线通信速度领域。这样的通信速度到目前为止完全保留给基于光纤的系统。为了实现如此高的数据速率，我们必须研究系统架构的新范例，找到新的算法和技术方法，并实现新的半导体组件。个人研究项目将根据基本的基础研究问题调查不同的方法和途径。该计划是高度跨学科的，因为半导体物理，微电子，射频工程，信号处理，信息理论和计算机科学之间的密切合作是必要的。特别是新的范例，为整个系统结构到硬件和软件组件，以及到数字和模拟块是研究的重点。无线传输的能量效率至关重要。新的、高度集成的半导体技术和集成概念对于任何成功的系统设计都是必要的。预计将与嵌入式系统，电子电路设计，系统互连，协议设计的体系结构的研究领域的几个协同作用。优先方案还涉及教育和科学资格认证过程。特别是，我们希望支持和资格的女性学者和激励提供顶尖的研究成果在拟议的研究领域。在项目的实施以及特别研讨会家庭友好的报价应支持这一点。跨学科教育将通过组织特别研讨会和暑期学校来实现。优先方案将在个别项目和项目组中进行。全面的计划管理应允许项目间的有效沟通，必要时还应允许项目间的协调。将组织方案内以及与欧洲和全球研究内的其他活动的沟通。该方案将确保和加强德国在无线通信领域研究的主导作用。这将使德国对来自世界各地的关键科学家具有吸引力。最后但并非最不重要的是，超高速通信的应用可以通过广泛的宣传来理解，并将引导更多的年轻人从事技术学科的载体。特别是该计划超越100 Gb/s的雄心，以及实现这一目标的新方法，将为德国工业重新获得这一高科技领域的领先地位带来重大优势。