Author
Listed:
- Francesco Fiorini
(Department of Information Engineering, University of Pisa, Via G. Caruso, 16, 56122 Pisa, Italy)
- Rosario Giuseppe Garroppo
(Department of Information Engineering, University of Pisa, Via G. Caruso, 16, 56122 Pisa, Italy)
- Michele Pagano
(Department of Information Engineering, University of Pisa, Via G. Caruso, 16, 56122 Pisa, Italy)
- Rostyslav Schiavini Yadzhak
(Department of Information Engineering, University of Pisa, Via G. Caruso, 16, 56122 Pisa, Italy)
Abstract
This work presents and evaluates two threshold-based detection methods for the Six-State quantum key distribution protocol, considering a realistic scenario involving partial intercept–resend attack and channel noise. The statistical properties of the shared quantum bit error rate (QBER) are analyzed and used to estimate the attacker interception density from observed data. Building on this foundation, the work derives two optimal QBER detection thresholds designed to minimize both false positive and false negative rates, following, respectively, upper theoretical bounds and limit probability density function approach. A developed Qiskit simulation environment enables the evaluation and comparison of the two detection methods on simulated and real-inspired quantum systems with differing noise characteristics. This framework moves beyond theoretical analysis, allowing practical investigation of system noise effects on detection accuracy. Simulation results confirm that both methods are robust and effective, achieving high detection accuracy across all the tested configurations, thereby validating their applicability to real-world quantum communication systems.
Suggested Citation
Francesco Fiorini & Rosario Giuseppe Garroppo & Michele Pagano & Rostyslav Schiavini Yadzhak, 2025.
"Eavesdropper Detection in Six-State Protocol Against Partial Intercept–Resend Attack,"
Future Internet, MDPI, vol. 17(11), pages 1-26, October.
Handle:
RePEc:gam:jftint:v:17:y:2025:i:11:p:500-:d:1784583
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