IEEE 802.15.4 FSK和OFDM传输方案共存下的Wi-SUN FAN多跳网络

2021 24th International Symposium on Wireless Personal Multimedia Communications (WPMC) Pub Date : 2021-12-14 DOI:10.1109/wpmc52694.2021.9700449

Hidetomo Ochiai, K. Mizutani, H. Harada

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引用次数: 1

摘要

无线智能泛在网络场域网络(Wi-SUN FAN)是面向物联网(IoT)户外大规模多跳网络的无线通信标准。目前采用IEEE 802.15.4标准的频移键控(FSK)作为Wi-SUN FAN的物理层。提高物理层的数据速率对于实现下一代物联网系统的预期要求至关重要。本文将IEEE 802.15.4标准的正交频分复用技术(OFDM)引入到Wi-SUN FAN中，在不增加系统带宽的情况下提高数据速率。通过计算机仿真，评估了物理层从FSK到OFDM过渡时期信号间干扰下的包错误率(PER)特性。结果表明，与fsk之间的干扰相比，OFDM混合产生的新干扰降低了PER特性。然而，不同信道之间的干扰受到限制，因为实现PER=10%所需的载波干扰功率比低于-10dB。此外，我们评估了Wi-SUN FAN在媒体访问控制层的传输特性，并验证了在进行跳频时，引入OFDM可以有效地将系统最大吞吐量提高1.9倍。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Wi-SUN FAN Multi-hop Network in Coexistence of IEEE 802.15.4 FSK and OFDM Transmission Schemes

The wireless smart ubiquitous network field area network (Wi-SUN FAN) is a wireless communication standard for the Internet of things (IoT) in outdoor large-scale multi-hop networks. Currently, frequency shift keying (FSK) standardized in IEEE 802.15.4 is employed as the physical layer of the Wi-SUN FAN. Improving data rate of the physical layer is essential to realize expected requirements toward the next-generation IoT systems. In this paper, we introduce the orthogonal frequency division multiplexing (OFDM) standardized in IEEE 802.15.4 into the Wi-SUN FAN to improve data rate without increasing the system bandwidth. We evaluated the packet error rate (PER) characteristics under inter-signal interference in the transition period of the physical layer from FSK to OFDM through a computer simulation. Results showed that the new interference caused by the mixture of OFDM degraded the PER characteristics, in comparison with the interference between FSKs. However, the interference between different channels was limited because the required carrier-to-interference power ratio to achieve PER=10% was below –10dB. Furthermore, we evaluated the transmission characteristics of the Wi-SUN FAN in the media access control layer and verified that the introduction of the OFDM is effective for improving the maximum system throughput by 1.9 times when performing frequency hopping.

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来源期刊

2021 24th International Symposium on Wireless Personal Multimedia Communications (WPMC)

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