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Main Authors: Anumula, Sathish Krishna, Chennam, Harinatha Reddy, Taware, Ranganath Nagesh, Kunthu, Balakumar Ravindranath
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2601.20877
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author Anumula, Sathish Krishna
Chennam, Harinatha Reddy
Taware, Ranganath Nagesh
Kunthu, Balakumar Ravindranath
author_facet Anumula, Sathish Krishna
Chennam, Harinatha Reddy
Taware, Ranganath Nagesh
Kunthu, Balakumar Ravindranath
contents The industrial transformation of Industry 4 and 5 results in cyber physical production systems that require secure resilient and energy efficient connectivity over integrated terrestrial and nonterrestrial networks NTNs Since its operation over fiber spans over 5G or 6G infrastructures to Low Earth Orbit LEO satellites quantum communication techniques enabled by Quantum Key Distribution QKD together with entanglement assisted links have the potential for high assurance security as well as synchronization But quantum channels are extremely vulnerable to any kind of impairment be it environmental or physicalsuch as effects induced by atmospheric turbulence pointing errors Doppler shifts satellite motion restricted optical power and limited quantum memory All these factors make for a tightly coupled routing and resource allocation problem that unfortunately cannot be addressed at scale by existing approaches to network control.
format Preprint
id arxiv_https___arxiv_org_abs_2601_20877
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle AI Optimized Routing and Resource Allocation for Quantum Enabled Non Terrestrial Industrial Networks
Anumula, Sathish Krishna
Chennam, Harinatha Reddy
Taware, Ranganath Nagesh
Kunthu, Balakumar Ravindranath
Quantum Physics
The industrial transformation of Industry 4 and 5 results in cyber physical production systems that require secure resilient and energy efficient connectivity over integrated terrestrial and nonterrestrial networks NTNs Since its operation over fiber spans over 5G or 6G infrastructures to Low Earth Orbit LEO satellites quantum communication techniques enabled by Quantum Key Distribution QKD together with entanglement assisted links have the potential for high assurance security as well as synchronization But quantum channels are extremely vulnerable to any kind of impairment be it environmental or physicalsuch as effects induced by atmospheric turbulence pointing errors Doppler shifts satellite motion restricted optical power and limited quantum memory All these factors make for a tightly coupled routing and resource allocation problem that unfortunately cannot be addressed at scale by existing approaches to network control.
title AI Optimized Routing and Resource Allocation for Quantum Enabled Non Terrestrial Industrial Networks
topic Quantum Physics
url https://arxiv.org/abs/2601.20877