Routing and Wavelength Assignment with Minimal Attack Radius for QKD Networks
- URL: http://arxiv.org/abs/2508.10613v1
- Date: Thu, 14 Aug 2025 13:10:43 GMT
- Title: Routing and Wavelength Assignment with Minimal Attack Radius for QKD Networks
- Authors: Mengyao Li, Qiaolun Zhang, Zongshuai Yang, Stefano Bregni, Alberto Gatto, Raouf Boutaba, Massimo Tornatore,
- Abstract summary: Quantum Key Distribution (QKD) can distribute keys with guaranteed security but remains susceptible to key exchange interruption due to physical-layer threats.<n>We first introduce a novel metric, namely Number of Affected Requests (maxNAR), to quantify the worst-case impact of a single physical-layer attack.
- Score: 7.465513642898046
- License: http://creativecommons.org/licenses/by-nc-sa/4.0/
- Abstract: Quantum Key Distribution (QKD) can distribute keys with guaranteed security but remains susceptible to key exchange interruption due to physical-layer threats, such as high-power jamming attacks. To address this challenge, we first introduce a novel metric, namely Maximum Number of Affected Requests (maxNAR), to quantify the worst-case impact of a single physical-layer attack, and then we investigate a new problem of Routing and Wavelength Assignment with Minimal Attack Radius (RWA-MAR). We formulate the problem using an Integer Linear Programming (ILP) model and propose a scalable heuristic to efficiently minimize maxNAR. Our approach incorporates key caching through Quantum Key Pools (QKPs) to enhance resilience and optimize resource utilization. Moreover, we model the impact of different QKD network architectures, employing Optical Bypass (OB) for optical switching of quantum channels and Trusted Relay (TR) for secure key forwarding. Moreover, a tunable parameter is designed in the heuristic to guide the preference for OB or TR, offering enhanced adaptability and dynamic control in diverse network scenarios. Simulation results confirm that our method significantly outperforms the baseline in terms of security and scalability.
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