Marc Girod-Genet scite author profile

This paper gives an overview of the European level standard proposal for smart wireless body area networks (WBAN). Under the mandate of European Telecommunication Standards Institute ETSI, a technical committee TC SmartBAN was formed in 2013. The goal of the TC SmartBAN is to define a standard for low power devices and networks to be used in short range links supporting, e.g., healthcare, wellness and sport relating applications operating around a human body. The main focus areas were in physical and medium access control layers' specifications as well as efficient data presentation format for information delivery. Moreover, experimental measurement campaigns to characterize radio channel occupancy in the specified SmartBAN frequency range have been carried out. The actual work is divided into several, parallel Work Items (WI). Within this paper, a short overview of the ETSI TC SmartBAN work is given. The components of the SmartBAN standard are described in their own dedicated papers.

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ETSI SmartBAN Architecture: The Global Vision for Smart Body Area Networks

Hämäläinen

Mucchi

Girod-Genet

et al. 2020

IEEE Access

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This paper presents a condensed review of the European smart body area network (BAN) standardization work and its already published standards. The work is carried out under the ETSI Technical Committee (TC) SmartBAN. The goal of ETSI TC SmartBAN is to define and develop new European BAN standards; fostering the successful market adoption of wireless BAN technology by providing a standardized way to bring new interoperable products into the health, medical, sport, leisure and IoT markets, targeting to global exploitation. TC SmartBAN covers wireless communications, especially the physical and medium access control layers, associated security, semantic interoperability and open data representation, which are necessary features in the data transmissions, as well as building blocks of the future smart coordinator. The use of smart coordinator centralizes the network intelligence to the hub, which enables implementation of simple nodes. The SmartBAN approach will be computationally light, and it supports reliable operations across heterogeneous networks. Due to the semantic approach in all functional levels, SmartBAN also supports high interoperability. For emergency traffic, SmartBAN provides different priority classes and fast channel access associated with a low latency. Novel concept adopted in the SmartBAN for high-priority traffic is a multi-use channel access, which can also improve the spectral efficiency. Not only on-body nodes and applications, TC SmartBAN is considering in-body communications for capsule endoscopy. In addition, SmartBAN collaborates with other standardization groups, such as oneM2M and AIOTI, to widen the impact of its work.

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Marc Girod-Genet

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ETSI TC SmartBAN: Overview of the wireless body area network standard

ETSI SmartBAN Architecture: The Global Vision for Smart Body Area Networks

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