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Main Authors: Djidjekh, Taki Eddine, Sanogo, Lamoussa, Loubet, Gaël, Sidibe, Alassane, Dragomirescu, Daniela, Takacs, Alexandru
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2410.19328
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author Djidjekh, Taki Eddine
Sanogo, Lamoussa
Loubet, Gaël
Sidibe, Alassane
Dragomirescu, Daniela
Takacs, Alexandru
author_facet Djidjekh, Taki Eddine
Sanogo, Lamoussa
Loubet, Gaël
Sidibe, Alassane
Dragomirescu, Daniela
Takacs, Alexandru
contents This article addresses an innovative concept to enhance the security for IoT applications in the case of Simultaneous Wireless Information and Power Transfer. This is achieved by integrating a complementary security and identification mechanism through Wireless Power Transfer link within the network of autonomous wireless nodes. This mechanism is implemented at the level of the RF rectifier used to receive energy from a dedicated RF source. A prototype of such RF rectifier has been developed, it generates in real time a backscattered waveform (uplink from the wireless node to the RF source) as function of the parameters of the incoming energy waveform (downlink from RF source) and a digital private key code, generated/available at the level of the wireless node. This uplink waveform can be monitored at the level of the RF source for security/identification purposes implementing an autonomous hardware/physical security layer that operates independently from the communication protocols.
format Preprint
id arxiv_https___arxiv_org_abs_2410_19328
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle A New Security and Identification Concept for SWIPT Systems in IoT Applications
Djidjekh, Taki Eddine
Sanogo, Lamoussa
Loubet, Gaël
Sidibe, Alassane
Dragomirescu, Daniela
Takacs, Alexandru
Networking and Internet Architecture
This article addresses an innovative concept to enhance the security for IoT applications in the case of Simultaneous Wireless Information and Power Transfer. This is achieved by integrating a complementary security and identification mechanism through Wireless Power Transfer link within the network of autonomous wireless nodes. This mechanism is implemented at the level of the RF rectifier used to receive energy from a dedicated RF source. A prototype of such RF rectifier has been developed, it generates in real time a backscattered waveform (uplink from the wireless node to the RF source) as function of the parameters of the incoming energy waveform (downlink from RF source) and a digital private key code, generated/available at the level of the wireless node. This uplink waveform can be monitored at the level of the RF source for security/identification purposes implementing an autonomous hardware/physical security layer that operates independently from the communication protocols.
title A New Security and Identification Concept for SWIPT Systems in IoT Applications
topic Networking and Internet Architecture
url https://arxiv.org/abs/2410.19328