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Hauptverfasser: Le, Xinyan, Zhu, Yao, Hu, Yulin, Han, Bin
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2511.18428
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author Le, Xinyan
Zhu, Yao
Hu, Yulin
Han, Bin
author_facet Le, Xinyan
Zhu, Yao
Hu, Yulin
Han, Bin
contents Physical layer security (PLS) is a potential solution for secure and reliable transmissions in future Ultra-Reliable and Low-Latency Communications (URLLC). This work jointly optimizes redundant bits and blocklength allocation in practical round-trip transmission scenarios. To minimize the leakage-failure probability, a metric that jointly characterizes security and reliability in PLS, we formulate an optimization problem for allocating both redundant bits and blocklength. By deriving the boundaries of the feasible set, we obtain the globally optimal solution for this integer optimization problem. To achieve more computationally efficient solutions, we propose a block coordinate descent (BCD) method that exploits the partial convexity of the objective function. Subsequently, we develop a majorization-minimization (MM) algorithm through convex approximation of the objective function, which further improves computational efficiency. Finally, we validate the performance of the three proposed approaches through simulations, demonstrating their practical applicability for future URLLC services.
format Preprint
id arxiv_https___arxiv_org_abs_2511_18428
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Joint Optimization for Security and Reliability in Round-Trip Transmissions for URLLC services
Le, Xinyan
Zhu, Yao
Hu, Yulin
Han, Bin
Systems and Control
Physical layer security (PLS) is a potential solution for secure and reliable transmissions in future Ultra-Reliable and Low-Latency Communications (URLLC). This work jointly optimizes redundant bits and blocklength allocation in practical round-trip transmission scenarios. To minimize the leakage-failure probability, a metric that jointly characterizes security and reliability in PLS, we formulate an optimization problem for allocating both redundant bits and blocklength. By deriving the boundaries of the feasible set, we obtain the globally optimal solution for this integer optimization problem. To achieve more computationally efficient solutions, we propose a block coordinate descent (BCD) method that exploits the partial convexity of the objective function. Subsequently, we develop a majorization-minimization (MM) algorithm through convex approximation of the objective function, which further improves computational efficiency. Finally, we validate the performance of the three proposed approaches through simulations, demonstrating their practical applicability for future URLLC services.
title Joint Optimization for Security and Reliability in Round-Trip Transmissions for URLLC services
topic Systems and Control
url https://arxiv.org/abs/2511.18428