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Updated: Jun 23, 2025

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Secrecy Performance Enhancement Using Self-Interference Cancellation in Wireless Mutual Broadcast Networks for

Taesoo Kwon1, HyeonWoo Lee2

  • 1Department of Computer Science and Engineering, Seoul National University of Science and Technology (SeoulTech), Seoul 01811, Republic of Korea.

Sensors (Basel, Switzerland)
|June 19, 2024
PubMed
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Performance Analysis and Design Principles of Wireless Mutual Broadcast Using Heterogeneous Transmit Power for Proximity-Aware Services.

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This summary is machine-generated.

This study enhances wireless mutual broadcast (WMB) network security by integrating physical layer security (PLS) with hybrid duplex (HBD) operations. Results show significant secrecy improvements, especially with self-interference cancellation (SIC) in dense networks.

Area of Science:

  • Wireless communication security
  • Network engineering
  • Information theory

Background:

  • Wireless Mutual Broadcast (WMB) networks face eavesdropping risks due to their broadcast nature.
  • Proximity-based services demand secure data exchange between nearby devices.
  • Enhancing security in Random-Access-based WMB (RA-WMB) networks is critical.

Purpose of the Study:

  • To investigate improvements in secrecy performance for RA-WMB networks.
  • To integrate Physical Layer Security (PLS) with Hybrid Duplex (HBD) operations.
  • To optimize operational parameters for maximizing network security.

Main Methods:

  • Utilizing a stochastic geometry framework to model RA-WMB networks.
  • Implementing HBD operations balancing half-duplex (HD) and full-duplex (FD) modes.
Keywords:
6G IoTfull duplexneighbor discoveryphysical layer securityproximity-based servicesrandom accessself-interference cancellationstochastic geometrywireless broadcast

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  • Employing Self-Interference Cancellation (SIC) to bolster PLS performance.
  • Analyzing key parameters: transmission probability (TxPr), jammer density, and FD conditions.
  • Main Results:

    • Demonstrated significant improvements in PLS performance.
    • Highlighted the critical role of SIC, especially in dense legitimate node scenarios.
    • Showcased the effectiveness of adjusting TxPr to balance HD/FD operations considering SIC imperfections.

    Conclusions:

    • The proposed design principles offer a robust framework for securing WMB networks.
    • Addresses the intricate balance of interference and SIC in diverse network configurations.
    • Provides a pathway for enhanced data security in proximity-based services.