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A Protected IEEE 802.15.4 Transceiver Design by a Physical Layer Encryption Approach

Sanket Deshpand, Aparna Shinde

Abstract


Abstract

With the multiplication of Internet of Things (IoT), the IEEE 802.15.4 physical layer is winding up progressively, well-known due to its low power utilization. Be that as it may, secure data communication over the system is a testing issue since vulnerabilities in the existing security natives prompt a few assaults. The alleviation of these assaults independently includes noteworthy processing load the honest to goodness hub. In this paper, we propose a protected IEEE 802.15.4 transceiver plan that mitigates numerous assaults, at the same time by utilizing a physical layer encryption approach that diminishes the calculations at the upper layers. Notwithstanding giving classification and trustworthiness benefits, the proposed transceiver gives adequate intricacy to different assaults, for example, cryptanalysis and movement examination assaults. It additionally altogether enhances the lifetime of the hub within the sight of an apparition assailant by keeping the authentic hub from preparing the false messages and henceforth battles against vitality exhaustion assaults. The reproduction comes about demonstrate that a high image blunder rate at the foe can be accomplished utilizing the proposed transceiver without influencing the throughput at the true blue hub. In this paper, we additionally examine the equipment’s multifaceted nature by building up a FPGA and ASIC model of the proposed transceiver.

Keywords: IEEE 802.15.4, encryption, IoT, IPSEC, FPGA

Cite this Article

Sanket Deshpand, Aparna Shinde. A Protected IEEE 802.15.4 Transceiver Design by a Physical Layer Encryption Approach. Recent Trends in Electronics & Communication Systems. 2018; 5(2): 1–6p.



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DOI: https://doi.org/10.37591/rtecs.v5i2.1004

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