5G-PPP Technology Board: Delivery of 5G Services Indoors - the wireless wire challenge and solutions

Adam Kapovits (Editor), Anastasius Gavras (Editor), John Cosmas (Editor), Mir Ghoraishi (Editor), Xi Li (Editor), Yue Zhang (Editor), Adam Kapovits (Contributor), Anastasius Gavras (Contributor), Andrea Conti (Contributor), Angeliki Alexiou (Contributor), Antonio Garcia (Contributor), Atanas Savov (Contributor), Ben Meunier (Contributor), Carlos Guimarães (Contributor), Charilaos Zarakovitis (Contributor), Daniel Camps (Contributor), Domenico Giustiniano (Contributor), Furkan Comert (Contributor), Hequn Zhang (Contributor), Israel Koffman (Contributor)James Gbadamosi (Contributor), John Cosmas (Contributor), Jose M. Alcaraz Calero (Contributor), Kareem Ali (Contributor), Krzysztof Cabaj (Contributor), Lina Shi (Contributor), Matteo Satta (Contributor), Mir Ghoraishi (Contributor), Moshe Ran (Contributor), Mythri Hunukumbure (Contributor), Nawar Jawad (Contributor), Paola Iovanna (Contributor), Qi Wang (Contributor), Sara Modarres Razavi (Contributor), Stefania Bartoletti (Contributor), Tezcan Cogalan (Contributor), Wei Li (Contributor), Wojciech Mazurczyk (Contributor), Xi Li (Contributor), Xiao Li (Contributor), Xun Zhang (Contributor), Yoav Avinoam (Contributor), Yue Zhang (Contributor)

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Abstract

The 5G Public Private Partnership (5G PPP) has focused its research and innovation activities mainly on outdoor use cases and supporting the user and its applications while on the move. However, many use cases inherently apply in indoor environments whereas their requirements are not always properly reflected by the requirements eminent for outdoor applications.

The best example for indoor applications can be found is the Industry 4.0 vertical, in which most described use cases are occurring in a manufacturing hall. Other environments exhibit similar characteristics such as commercial spaces in offices, shopping malls and commercial buildings. We can find further similar environments in the media & entertainment sector, culture sector with museums and the transportation sector with metro tunnels. Finally in the residential space we can observe a strong trend for wireless connectivity of appliances and devices in the home. Some of these spaces are exhibiting very high requirements among others in terms of device density, high-accuracy localisation, reliability, latency, time sensitivity, coverage and service continuity.

The delivery of 5G services to these spaces has to consider the specificities of the indoor environments, in which the radio propagation characteristics are different and in the case of deep indoor scenarios, external radio signals cannot penetrate building construction materials. Furthermore, these spaces are usually “polluted” by existing wireless technologies, causing a multitude of interreference issues with 5G radio technologies. Nevertheless, there exist cases in which the co-existence of 5G new radio and other radio technologies may be sensible, such as for offloading local traffic. In any case the deployment of networks indoors is advised to consider and be planned along existing infrastructure, like powerlines and available shafts for other utilities. Finally indoor environments expose administrative cross-domain issues, and in some cases so called non-public networks, foreseen by 3GPP, could be an attractive deployment model for the owner/tenant of a private space and for the mobile network operators serving the area.

Technology-wise there exist a number of solutions for indoor RAN deployment, ranging from small cell architectures, optical wireless/visual light communication, and THz communication utilising reconfigurable intelligent surfaces. For service delivery the concept of multi-access edge computing is well tailored to host virtual network functions needed in the indoor environment, including but not limited to functions supporting localisation, security, load balancing, video optimisation and multi-source streaming.

Measurements of key performance indicators in indoor environments indicate that with proper planning and consideration of the environment characteristics, available solutions can deliver on the expectations. Measurements have been conducted regarding throughput and reliability in the mmWave and optical wireless communication cases, electric and magnetic field measurements, round trip latency measurements, as well as high-accuracy positioning in laboratory environment.

Overall, the results so far are encouraging and indicate that 5G and beyond networks must advance further in order to meet the demands of future emerging intelligent automation systems in the next 10 years. Highly advanced industrial environments present challenges for 5G specifications, spanning congestion, interference, security and safety concerns, high power consumption, restricted propagation and poor location accuracy within the radio and core backbone communication networks for the massive IoT use cases, especially inside buildings. 6G and beyond 5G deployments for industrial networks will be increasingly denser, heterogeneous and dynamic, posing stricter performance requirements on the network. The large volume of data generated by future connected devices will put a strain on networks. It is therefore fundamental to discriminate the value of information to maximize the utility for the end users with limited network resources.
Original languageEnglish
PublisherEuropean Commission
Number of pages100
Volume1.0
Publication statusPublished - 9 Sept 2021

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