Publication detail

Wireless M-BUS: An Attractive M2M Technology for 5G-Grade Home Automation

MAŠEK, P. ZEMAN, K. KUDER, Z. HOŠEK, J. ANDREEV, S. FUJDIAK, R. KRÖPFL, F.

Original Title

Wireless M-BUS: An Attractive M2M Technology for 5G-Grade Home Automation

Czech Title

Wireless M-BUS: An Attractive M2M Technology for 5G-Grade Home Automation

English Title

Wireless M-BUS: An Attractive M2M Technology for 5G-Grade Home Automation

Type

conference paper

Language

en

Original Abstract

The aggressive introduction of new smart devices for households is considered today as one of the most challenging issues in the Internet of Things (IoT) world. According to the wide variety of radio technologies used for communication between smart devices, there is a growing need to answer the question of which communication standard can be used to drive communication in smart homes and intelligent buildings as part of the emerging 5G ecosystem. To this end, we provide in this paper a performance analysis of Wireless M-BUS communication protocol which has recently increased its popularity especially in smart-metering domain in Western Europe. First, the developed WMBUS module in Network Simulator 3 (NS-3) is described. Further, we investigate in detail the obtained simulation results which are compared with the real data from Kamstrup smart metering devices. Especially, the attention is focused on the packet delivery ratio and interference between smart devices. In particular, we demonstrate that our constructed module provides adequate correlation between the results obtained from the simulation and those from real-world measurements. the simulation and those from real-world measurements.

Czech abstract

The aggressive introduction of new smart devices for households is considered today as one of the most challenging issues in the Internet of Things (IoT) world. According to the wide variety of radio technologies used for communication between smart devices, there is a growing need to answer the question of which communication standard can be used to drive communication in smart homes and intelligent buildings as part of the emerging 5G ecosystem. To this end, we provide in this paper a performance analysis of Wireless M-BUS communication protocol which has recently increased its popularity especially in smart-metering domain in Western Europe. First, the developed WMBUS module in Network Simulator 3 (NS-3) is described. Further, we investigate in detail the obtained simulation results which are compared with the real data from Kamstrup smart metering devices. Especially, the attention is focused on the packet delivery ratio and interference between smart devices. In particular, we demonstrate that our constructed module provides adequate correlation between the results obtained from the simulation and those from real-world measurements. the simulation and those from real-world measurements.

English abstract

The aggressive introduction of new smart devices for households is considered today as one of the most challenging issues in the Internet of Things (IoT) world. According to the wide variety of radio technologies used for communication between smart devices, there is a growing need to answer the question of which communication standard can be used to drive communication in smart homes and intelligent buildings as part of the emerging 5G ecosystem. To this end, we provide in this paper a performance analysis of Wireless M-BUS communication protocol which has recently increased its popularity especially in smart-metering domain in Western Europe. First, the developed WMBUS module in Network Simulator 3 (NS-3) is described. Further, we investigate in detail the obtained simulation results which are compared with the real data from Kamstrup smart metering devices. Especially, the attention is focused on the packet delivery ratio and interference between smart devices. In particular, we demonstrate that our constructed module provides adequate correlation between the results obtained from the simulation and those from real-world measurements. the simulation and those from real-world measurements.

Keywords

Home automation, 5G-grade, IoT, NS-3, Packet delivery estimation, Smart metering, Wireless M-BUS

RIV year

2015

Released

26.10.2015

Location

Řím

ISBN

978-1-4673-9282-2

Book

EAI International Conference on CYber physiCaL systems, iOt and sensors Networks (CYCLONE 2015)

Pages from

1

Pages to

12

Pages count

12

BibTex


@inproceedings{BUT117811,
  author="Pavel {Mašek} and Kryštof {Zeman} and Zenon {Kuder} and Jiří {Hošek} and Sergey {Andreev} and Radek {Fujdiak} and Franz {Kröpfl}",
  title="Wireless M-BUS: An Attractive M2M Technology for 5G-Grade Home Automation",
  annote="The aggressive introduction of new smart devices for households is considered today as one of the most challenging issues in the Internet of Things (IoT) world. According to the wide variety of radio technologies used for communication between smart devices, there is a growing need to answer the question of which communication standard can be used to drive communication in smart homes and intelligent buildings as part of the emerging 5G ecosystem. To this end, we provide in this paper a performance analysis of Wireless M-BUS communication protocol which has recently increased its popularity especially in smart-metering domain in Western Europe. First, the developed WMBUS module in Network Simulator 3 (NS-3) is described. Further, we
investigate in detail the obtained simulation results which are compared with the real data from Kamstrup smart metering devices. Especially, the attention is focused on the packet delivery ratio and interference between
smart devices. In particular, we demonstrate that our constructed module provides adequate correlation between the results obtained from the simulation and those from real-world measurements.
the simulation and those from real-world measurements.",
  booktitle="EAI International Conference on CYber physiCaL systems, iOt and sensors Networks (CYCLONE 2015)",
  chapter="117811",
  howpublished="online",
  year="2015",
  month="october",
  pages="1--12",
  type="conference paper"
}