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Feature Articles - October 2024

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Brought to you by IEEE Open Journal of Vehicular Technology
1 week 6 days ago
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Wi-SUN (Wireless Smart Utility Network) provides monitoring and control of smart metering systems such as electricity, gas, and water, as well as utility systems typical of smart cities. Wi-SUN devices use a standardized system in IEEE 802.15.4 and IEEE 2857 under the name "SUN" and are designed to operate in very large network, to support low-power wireless applications, and to achieve transmission distances of hundreds of meters to several kilometers between devices. 

In addition, Wi-SUN can be used not only for peer-to-peer communication, but also to create a mesh network, utilizing multi-hop technology with more than 20 possible stages to communicate with access points to cover a large geographical area. 

The Wi-SUN system is currently being developed by the Wi-SUN Alliance with technical and interoperability specifications for digestion, and is currently being developed as a HAN (Home Area Network), which will connect smart meters, various home appliances, batteries, etc. indoors, and a FAN (Field Area Network), which will connect various essential applications, such as smart meters, home appliances, and batteries indoors. 

Specification and Performance Analysis of Wi-SUN FAN 

Authors: Rei Hirakawa; Keiichi Mizutani; Hiroshi Harada 

Published in volume 5, IEEE Open Journal of Vehicular Technology 

IEEExplore version

Summary contributed by Hiroshi Harada (Author): This paper presents an overview of the Wi-SUN FAN system using IEEE 802.15.4-SUN, which is currently used in multi-hop wireless IoT systems such as smart meters, and evaluates the basic transmission characteristics using computer simulations and actual devices. It is expected that the use of this paper as a reference for transmission characteristics will promote research and development of Wi-SUN based system into the improvement of various transmission characteristics in the future. 

Software-Defined Radio-Based IEEE 802.15.4 SUN OFDM Evaluation Platform for Highly Mobile Environments 

Authors: Keito Nakura; Shota Mori; Hiroko Masaki; Hiroshi Harada 

Published in volume 5, IEEE Open Journal of Vehicular Technology 

IEEExplore version

Summary contributed by Hiroshi Harada (Author): In order to enable the OFDM method standardized as IEEE 802.15.4-SUN, which is normally used in fixed installed sensors, meters, monitors, and others, to be used in mobile IoT applications, an evaluation platform based on software radio technology has been developed to enable the evaluation of the developed reception schemes using real radios. 

About IEEE Open Journal of Vehicular Technology (OJVT) 

The IEEE Open Journal of Vehicular Technology covers the theoretical, experimental and operational aspects of electrical and electronics engineering in mobile radio, motor vehicles and land transportation. (a) Mobile radio shall include all terrestrial mobile services. (b) Motor vehicles shall include the components and systems and motive power for propulsion and auxiliary functions. (c) Land transportation shall include the components and systems used in both automated and non-automated facets of ground transport technology.


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The IEEE Open Journal of Vehicular Technology covers the theoretical, experimental and operational aspects of electrical and electronics engineering in mobile radio, motor vehicles and land transportation.