Seungnam Han scite author profile

Seungnam Han

5Publications

0Citation Statements Received

47Citation Statements Given

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Affiliations

Gwangju Institute of Science and Technology, Gwangju University

Publications

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Lightweight Physical Layer Aided Key Agreement and Authentication for the Internet of Things

et al. 2021

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In this paper, we propose a lightweight physical layer aided authentication and key agreement (PL-AKA) protocol in the Internet of Things (IoT). The conventional evolved packet system AKA (EPS-AKA) used in long-term evolution (LTE) systems may suffer from congestion in core networks by the large signaling overhead as the number of IoT devices increases. Thus, in order to alleviate the overhead, we consider cross-layer authentication by integrating physical layer approaches to cryptography-based schemes. To demonstrate the feasibility of the PL-AKA, universal software radio peripheral (USRP) based tests are conducted as well as numerical simulations. The proposed scheme shows a significant reduction in the signaling overhead, compared to the conventional EPS-AKA in both the simulation and experiment. Therefore, the proposed lightweight PL-AKA has the potential for practical and efficient implementation of large-scale IoT networks.

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Localization of IoT Devices based on Spatially Separated Multi-Antenna Radio Frequency Channel State Information

Han

Lee

Yoon

et al. 2022

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A Content-Assisted Dynamic PUF Key Generation Scheme Using Compressive Autoencoder for Internet-of-Things

et al. 2023

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PHY-PSIONICS: Physical-Layer Phase Secret Key Encapsulation in Correlated Subchannels

Han

Choi

Hwang

2023

IEEE Wireless Commun. Lett.

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Radio Frequency Signature based Implicit Object Movement Detection in an Indoor Environment

Han

Hwang

2021

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Seungnam Han

Lightweight Physical Layer Aided Key Agreement and Authentication for the Internet of Things

Localization of IoT Devices based on Spatially Separated Multi-Antenna Radio Frequency Channel State Information

A Content-Assisted Dynamic PUF Key Generation Scheme Using Compressive Autoencoder for Internet-of-Things

PHY-PSIONICS: Physical-Layer Phase Secret Key Encapsulation in Correlated Subchannels

Radio Frequency Signature based Implicit Object Movement Detection in an Indoor Environment

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