Shaping Future 6G Networks. Группа авторов

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Shaping Future 6G Networks - Группа авторов


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ensuring trust, reliability, and sustainability.

      Have a nice trip, and enjoy reading,

      Thomas, Noel, and Emmanuel

       Marco Giordani1, Michele Polese2, Andres Laya3, Emmanuel Bertin4, and Michele Zorzi1

       1Department of Information Engineering, University of Padova, Padova, Italy

       2Institute for the Wireless Internet of Things, Northeastern University, Boston, MA, USA

       3Ericsson Research, Stockholm, Sweden

       4Orange Innovation, France

      The 5th generation (5G) of wireless networks was positioned to support, besides the evolution of mobile broadband, new use cases ranging from massive IoT to ultrareliable services. However, in view of future technological innovations, researchers, industrial companies, and standardization bodies have started proposing new use cases and services that, for their generality and complementarity, would not be fully supported by 5G networks and are thus good representatives of future 6G services [1]. While the literature has a larger focus on application domains for the business‐to‐consumer (B2C) sector, this chapter discusses new beyond‐5G drivers for the business‐to‐business (B2B) markets, such as automotive, manufacturing and logistics, health and government, smart transportation, banking, and financial verticals.

      This chapter also discusses commonalities and differences among these drivers and outlines the order of magnitude of key performance indicators (KPIs) and requirements to be satisfied. In particular, while 5G‐based use cases typically present trade‐offs on latency, energy consumption, development and deployment costs, computational complexity, and throughput, 6G will be developed to meet stringent network demands in a holistic fashion, in view of the foreseen economic and business context of the 2030 era. Specifically, 6G paradigms will need to support (i) continuous connectivity, thus enabling coverage expansion compared to 5G in a cost‐efficient way to simultaneously reach high capacity, lower latency, and improved reliability; (ii) zero‐energy devices, e.g. for Internet of Things (IoT) and sensing applications for devices dispersed in wide areas for which replacing batteries will not be practical; and (iii) network‐compute integration to allow better predictions while maximizing performance in terms of latencies under 1 millisecond, low jitter, and high communication resilience.

      First generations of mobile communication networks have mainly targeted the B2C market. Offers targeting the B2B market have been mostly limited to providing connectivity to enterprise employees and providing connectivity to manufactured objects. While the first one has been present since the beginning of mobile communications with resource management offers, the second one has appeared progressively with the rise of Machine‐to‐Machine (M2M) communications, e.g., for logistics and traceability purposes. However, these use cases used to be quite marginal in the mobile network operator business, which remained focused on delivering connectivity and providing communication means to the mass market.

      5G has been a first move to complement the B2C model. The B2B market has been identified from the beginning as an important driver for 5G services, especially through ultra‐reliable low latency communications (URLLC) and massive machine type communication (mMTC) features. The deployment models of 5G have also been designed to fit enterprise needs. First, 5G standards enable the provision of end‐to‐end network slices targeting specific enterprise needs, covering both radio access network and core network. Second, some industry players are going further and have deployed their own 5G private networks, fully dedicated to their specific needs.

      In the 6G era, innovative mobile network operators will reap benefits from several business models simultaneously: besides selling connectivity services to end‐users, telecommunication operators will provide the required connectivity resources to B2B players (including companies, cities, public authorities, etc.) to fulfill their own missions. Connectivity solutions will need to be flexible enough to adapt to more and more heterogeneous Quality of Service (QoS) requirements, along the lines of what 5G is offering with network slicing. We illustrate this point in the following sections by providing relevant KPIs for the described use cases in the B2B market. 6G should therefore be an opportunity for industry players to invent and design new devices and networking strategies to support their own digital transformation needs of processes and social activities.

Use case Section Description Impact for B2B market Relevant KPIs
Industry and manufacturing
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