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Correction: Septien-Hernandez et al. A Comparative Study of Post-Quantum Cryptosystems for Internet-of-Things Applications. <i>Sensors</i> 2022, <i>22</i>, 489.

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Updated: Oct 5, 2025

Large Scale Energy Efficient Sensor Network Routing Using a Quantum Processor Unit
05:30

Large Scale Energy Efficient Sensor Network Routing Using a Quantum Processor Unit

Published on: September 8, 2023

706

A Comparative Study of Post-Quantum Cryptosystems for Internet-of-Things Applications.

Jose-Antonio Septien-Hernandez1, Magali Arellano-Vazquez2, Marco Antonio Contreras-Cruz1

  • 1Department of Electronics Engineering, Campus Irapuato-Salamanca, University of Guanajuato, Carr. Salamanca-Valle de Santiago km 3.5 + 1.8, Comunidad de Palo Blanco, Salamanca 36885, Mexico.

Sensors (Basel, Switzerland)
|January 22, 2022
PubMed
Summary
This summary is machine-generated.

Quantum computing threatens current encryption. This study adapts post-quantum cryptography for Internet of Things (IoT) devices, showing many algorithms offer efficient, quantum-resistant security for resource-constrained hardware.

Keywords:
Internet of Thingspost-quantum cryptographyresource-constrained devices

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Area of Science:

  • Cryptography
  • Computer Science
  • Internet of Things (IoT)

Background:

  • Quantum computers and Shor's algorithm threaten classical public-key cryptosystems essential for internet security.
  • The Internet of Things (IoT) connects numerous low-powered, resource-constrained devices, increasing vulnerability.
  • A new cryptographic standard resistant to quantum attacks is crucial for future internet security.

Purpose of the Study:

  • To investigate post-quantum cryptosystems suitable for resource-constrained IoT devices.
  • To adapt and evaluate the performance of these quantum-resistant algorithms on current IoT hardware.
  • To provide guidelines for selecting optimal post-quantum cryptography for diverse IoT applications.

Main Methods:

  • Studied several post-quantum cryptosystem proposals.
  • Adapted selected algorithms to work with existing cryptography and communication software.
  • Conducted performance measurements on resource-constrained hardware.

Main Results:

  • Many post-quantum algorithms can be efficiently executed on current IoT hardware.
  • These algorithms provide adequate protection against future quantum computer attacks.
  • Guidelines were established for selecting the best post-quantum cryptosystems for specific IoT applications.

Conclusions:

  • Post-quantum cryptography is feasible and necessary for securing the Internet of Things.
  • Efficient quantum-resistant solutions exist for resource-constrained IoT devices.
  • Proactive adoption of post-quantum cryptography is vital for long-term IoT security.