報告題目：5G-6G: Vision, Requirements, Technical Challenges, Standardization &Implementations
5G is the next step in the evolution of mobile communication and will be a key component of the Networked Society. In particular, 5G will accelerate the development of the Internet of Things. To enable connectivity for a wide range of applications and use cases, the capabilities of 5G wireless access must extend far beyond those of previous generations of mobile communications. Examples of these capabilities include very high data rates, very low latency, ultra-high reliability, energy efficiency and extreme device densities, and will be realized by the development of LTE in combination with new radio-access technologies. Therefore, this talk explains the different key technology components of 5G from physical layer to core technologies and from implementation to standardization.
報告題目：Ultra Reliable and Low latency Communication (URLCC) for 5G, IoT, Time Sensitive Networking and V2X Communication
新一代移動服務與應用程序要求前所未有的超低時延日博体育平台注册、高可靠性、極大連接密度以及大幅度地改善能量功率，而5G移動通信的各種優越特性是可以滿足這些要求的，并且能對其所帶來的市場機遇充分利用日博体育平台注册。超可靠低延遲通信（URLLC）是一個典型的例子，它能支持一些關鍵性業務應用功能，如工業互聯網，智能電網，遠程醫療手術和智能交通系統。對于4G LTE，3GPP Release 14版本下的延遲目前在4毫秒范圍內。URLLC是版本15的一部分，目標是延遲范圍達到1毫秒以內日博体育平台注册。URLLC也非常適合需要端到端安全和99.999％可靠性的應用程序，并且在數據包傳送的時間限制方面幾乎是確定性的日博体育平台注册。物理層無疑是最具挑戰性的，因為URLLC必須滿足兩個相互矛盾的要求：低延遲和超高可靠性。與傳統的移動寬帶應用相比，這是一種新類型的服務質量（QoS）。結合物理層，URLLC應用程序還需要低延遲回程和前傳。雖然以太網被稱為適用于數據和電信網絡的廣泛可用的低成本技術，但是為了滿足超低時延與時間敏感型網絡（TSN）特征，一系列為了降低網絡時延的技術將會被應用日博体育平台注册。因此日博体育平台注册，我們將闡述關于5G的不同URLLC解決方案以及時間敏感型網絡在loT和V2x通信的應用日博体育平台注册。
New services and applications requiring lower latency, better reliability, massive connection density, and improved energy efficiency are emerging in an unprecedented fashion. A variety of advanced features make 5G uniquely well positioned to meet all of these requirements and capitalize on these market opportunities. A prime example is Ultra-Reliable Low-Latency Communication (URLLC), a set of features designed to support mission-critical applications such as the industrial internet, smart grids, remote surgery, and intelligent transportation systems. With 4G LTE, latency is currently in the 4-millisecond range under 3GPP Release 14. URLLC is part of Release 15 and has a target of 1-millisecond. URLLC also is ideal for applications that require end-to-end security and 99.999 percent reliability, and it’s almost deterministic in time bounds on packet delivery. The physical layer is unquestionably the most challenging because URLLC must satisfy two conflicting requirements: low latency and ultra-high reliability. This combination is a vastly different type of quality of service (QoS) compared to traditional mobile broadband applications. Alongside with Physical layer, URLLC application also requires low latency backhaul and fronthaul. Ethernet is known as a widely available low-cost technology suitable for data and telecom networks. However, for meeting the extreme latency requirements, Time-Sensitive Network (TSN) features, composed of techniques for lowering the latency in networks, may be considered. Therefore, in this presentation, we will explain the different URLLC solutions for 5G and Time Sensitive networking with its applications to IoT and V2x communication.
Dr Shahid Mumtaz has more than 10 years of wireless industry/academic experience and is currently working as Principal Research Scientist and Technical Manager at Instituto de Telecomunica??es (IT) Portugal. He has received his Master and PhD degrees in Electrical & Electronic Engineering from Blekinge Institute of Technology, Sweden, and University of Aveiro, Portugal in 2006 and 2011, respectively.
From 2005 to 2006 for Ericsson and Huawei at Research Labs in Sweden as Researcher. Since January 2015, he has been with the Department of Electrical and Electronic Engineering at the University of Aveiro, Portugal where he is Adjunct Associate Professor and Director of the Wireless Networking and Communications Group. He uses mathematical and system level tools to model and analyze emerging wireless communication architectures, leading to innovative and/or theoretically optimal new communication techniques. He is working closely with leading R&D groups in the industry to transition these ideas to practice. His work is currently supported by Samsung, Huawei, and Ericsson, as well as FCT. He has also been providing consultancy to Intel, Huawei, and Portugal Telecom. In January 2017, IEEE has started a new standard on P1932.1: Standard for Licensed/Unlicensed Spectrum Interoperability in Wireless Mobile Networks and was elected as Vice chair for this standard. Furthermore, in January 2015, he was also elected Vice-Chair of IEEE Research Project on Vision of Green Standardization due to his pioneer work in green communication as well. He is also actively involved in 3GPP standardization on LTE release 12 onwards, along with major manufacturers (Huawei and Intel).Dr Mumtaz has published 3 books and more than 150 publications in very high-rank IEEE transactions, journals, book chapters, international conferences. He is serving as Scientific Expert and Evaluator for Research Funding Agencies, such as European Commission, and COST .