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Main Authors: Dogan, Mine Gokce, Kadiyala, Abhiram, Shah, Jaimin, Cardone, Martina, Fragouli, Christina
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2508.16899
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author Dogan, Mine Gokce
Kadiyala, Abhiram
Shah, Jaimin
Cardone, Martina
Fragouli, Christina
author_facet Dogan, Mine Gokce
Kadiyala, Abhiram
Shah, Jaimin
Cardone, Martina
Fragouli, Christina
contents Ultra-reliable low-latency communication is essential in mission-critical settings, including military applications, where persistent and asymmetric link blockages caused by mobility, jamming, or adversarial attacks can disrupt delay-sensitive transmissions. This paper addresses this challenge by deploying a multilevel diversity coding (MDC) scheme that controls the received information, offers distinct reliability guarantees based on the priority of data streams, and maintains low design and operational complexity as the number of network paths increases. For two priority levels over three edge-disjoint paths, the complete capacity region is characterized, showing that superposition coding achieves the region in general, whereas network coding is required only in a specific corner case. Moreover, sufficient conditions under which a simple superposition coding scheme achieves the capacity for an arbitrary number of paths are identified. To prove these results and provide a unified analytical framework, the problem of designing high-performing MDC schemes is shown to be equivalent to the problem of designing high-performing encoding schemes over a class of broadcast networks, referred to as combination networks in the literature.
format Preprint
id arxiv_https___arxiv_org_abs_2508_16899
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Two-Level Priority Coding for Resilience to Arbitrary Blockage Patterns
Dogan, Mine Gokce
Kadiyala, Abhiram
Shah, Jaimin
Cardone, Martina
Fragouli, Christina
Information Theory
Ultra-reliable low-latency communication is essential in mission-critical settings, including military applications, where persistent and asymmetric link blockages caused by mobility, jamming, or adversarial attacks can disrupt delay-sensitive transmissions. This paper addresses this challenge by deploying a multilevel diversity coding (MDC) scheme that controls the received information, offers distinct reliability guarantees based on the priority of data streams, and maintains low design and operational complexity as the number of network paths increases. For two priority levels over three edge-disjoint paths, the complete capacity region is characterized, showing that superposition coding achieves the region in general, whereas network coding is required only in a specific corner case. Moreover, sufficient conditions under which a simple superposition coding scheme achieves the capacity for an arbitrary number of paths are identified. To prove these results and provide a unified analytical framework, the problem of designing high-performing MDC schemes is shown to be equivalent to the problem of designing high-performing encoding schemes over a class of broadcast networks, referred to as combination networks in the literature.
title Two-Level Priority Coding for Resilience to Arbitrary Blockage Patterns
topic Information Theory
url https://arxiv.org/abs/2508.16899