From Earth to Orbit: A Quantum-Secure Authentication Key-Establishment Mechanism  to Defend Satellite Communications in the Quantum Age

Salman Shamshad; Waqas Bin Abbas; Sana Belguith; Lucy Berthoud

From Earth to Orbit: A Quantum-Secure Authentication Key-Establishment Mechanism to Defend Satellite Communications in the Quantum Age

Salman Shamshad, Waqas Bin Abbas, Sana Belguith, Lucy Berthoud

Research output: Chapter in Book/Report/Conference proceeding › Conference Contribution (Conference Proceeding)

Abstract

The inherent broadcast characteristics of satellite communication systems make them vulnerable to interception and manipulation threats. Stringent Authentication and KeyEstablishment (AKE) mechanisms play a vital role in securing satellite communication links by verifying legitimate participants and establishing a secret session for protected communication. Nevertheless, the existing AKE mechanisms based on classical cryptographic methods are not sufficient to guarantee the security of these systems in the forthcoming post-quantum era. Recognizing these flaws, we propose a quantum-secure robust AKE mechanism that fortifies these communications systems against emerging cyber and quantum threats. To the best of our knowledge, this is the first study to integrate NIST-approved quantum-safe cryptography primitives, coupled with a hardware fingerprinting-based key generation mechanism.

Original language	English
Title of host publication	4th Workshop on the Security of Space and Satellite Systems
Publication status	Accepted/In press - 14 Dec 2025
Event	Workshop on the Security of Space and Satellite Systems (SpaceSec) 2026 - San Diego, CA, San Diego, United States Duration: 23 Feb 2026 → 23 Feb 2026 Conference number: 4th https://spacesec.info/program.html

Conference

Conference	Workshop on the Security of Space and Satellite Systems (SpaceSec) 2026
Abbreviated title	SpaceSec 2026
Country/Territory	United States
City	San Diego
Period	23/02/26 → 23/02/26
Internet address	https://spacesec.info/program.html

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Cite this

@inproceedings{a21f58b14b2c41ed8f43fd63f53722a3,

title = "From Earth to Orbit: A Quantum-Secure Authentication Key-Establishment Mechanism to Defend Satellite Communications in the Quantum Age",

abstract = "The inherent broadcast characteristics of satellite communication systems make them vulnerable to interception and manipulation threats. Stringent Authentication and KeyEstablishment (AKE) mechanisms play a vital role in securing satellite communication links by verifying legitimate participants and establishing a secret session for protected communication. Nevertheless, the existing AKE mechanisms based on classical cryptographic methods are not sufficient to guarantee the security of these systems in the forthcoming post-quantum era. Recognizing these flaws, we propose a quantum-secure robust AKE mechanism that fortifies these communications systems against emerging cyber and quantum threats. To the best of our knowledge, this is the first study to integrate NIST-approved quantum-safe cryptography primitives, coupled with a hardware fingerprinting-based key generation mechanism.",

author = "Salman Shamshad and Abbas, \{Waqas Bin\} and Sana Belguith and Lucy Berthoud",

year = "2025",

month = dec,

day = "14",

language = "English",

booktitle = "4th Workshop on the Security of Space and Satellite Systems",

note = "Workshop on the Security of Space and Satellite Systems (SpaceSec) 2026, SpaceSec 2026 ; Conference date: 23-02-2026 Through 23-02-2026",

url = "https://spacesec.info/program.html",

}

From Earth to Orbit: A Quantum-Secure Authentication Key-Establishment Mechanism to Defend Satellite Communications in the Quantum Age. / Shamshad, Salman ; Abbas, Waqas Bin ; Belguith, Sana et al.
4th Workshop on the Security of Space and Satellite Systems. 2025.

Research output: Chapter in Book/Report/Conference proceeding › Conference Contribution (Conference Proceeding)

TY - GEN

T1 - From Earth to Orbit

T2 - Workshop on the Security of Space and Satellite Systems (SpaceSec) 2026

AU - Shamshad, Salman

AU - Abbas, Waqas Bin

AU - Belguith, Sana

AU - Berthoud, Lucy

N1 - Conference code: 4th

PY - 2025/12/14

Y1 - 2025/12/14

N2 - The inherent broadcast characteristics of satellite communication systems make them vulnerable to interception and manipulation threats. Stringent Authentication and KeyEstablishment (AKE) mechanisms play a vital role in securing satellite communication links by verifying legitimate participants and establishing a secret session for protected communication. Nevertheless, the existing AKE mechanisms based on classical cryptographic methods are not sufficient to guarantee the security of these systems in the forthcoming post-quantum era. Recognizing these flaws, we propose a quantum-secure robust AKE mechanism that fortifies these communications systems against emerging cyber and quantum threats. To the best of our knowledge, this is the first study to integrate NIST-approved quantum-safe cryptography primitives, coupled with a hardware fingerprinting-based key generation mechanism.

AB - The inherent broadcast characteristics of satellite communication systems make them vulnerable to interception and manipulation threats. Stringent Authentication and KeyEstablishment (AKE) mechanisms play a vital role in securing satellite communication links by verifying legitimate participants and establishing a secret session for protected communication. Nevertheless, the existing AKE mechanisms based on classical cryptographic methods are not sufficient to guarantee the security of these systems in the forthcoming post-quantum era. Recognizing these flaws, we propose a quantum-secure robust AKE mechanism that fortifies these communications systems against emerging cyber and quantum threats. To the best of our knowledge, this is the first study to integrate NIST-approved quantum-safe cryptography primitives, coupled with a hardware fingerprinting-based key generation mechanism.

M3 - Conference Contribution (Conference Proceeding)

BT - 4th Workshop on the Security of Space and Satellite Systems

Y2 - 23 February 2026 through 23 February 2026

ER -