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Main Authors: Dixit, Bhavya, A., Ananthapadmanabhan, Thahsin, Adheeba, Pathak, Saketh, Kasbekar, Gaurav S., Maity, Arnab
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2504.20626
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author Dixit, Bhavya
A., Ananthapadmanabhan
Thahsin, Adheeba
Pathak, Saketh
Kasbekar, Gaurav S.
Maity, Arnab
author_facet Dixit, Bhavya
A., Ananthapadmanabhan
Thahsin, Adheeba
Pathak, Saketh
Kasbekar, Gaurav S.
Maity, Arnab
contents We present MAVShield, a novel lightweight cipher designed to secure communications in Unmanned Aerial Vehicles (UAVs) using the MAVLink protocol, which by default transmits unencrypted messages between UAVs and Ground Control Stations (GCS). While existing studies propose encryption for MAVLink, most remain theoretical or simulation-based. We implement MAVShield alongside AES-CTR, ChaCha20, Speck-CTR, and Rabbit, and evaluate them on a real drone testbed. A comprehensive security analysis using statistical test suites (NIST and Diehard) demonstrates strong resistance of the novel cipher to cryptanalysis. Performance evaluation across key metrics including memory usage, CPU load, and battery power consumption, demonstrates that MAVShield outperforms existing algorithms and offers an efficient, real-world solution for securing MAVLink communications in UAVs.
format Preprint
id arxiv_https___arxiv_org_abs_2504_20626
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Novel Cipher for Enhancing MAVLink Security: Design, Security Analysis, and Performance Evaluation Using a Drone Testbed
Dixit, Bhavya
A., Ananthapadmanabhan
Thahsin, Adheeba
Pathak, Saketh
Kasbekar, Gaurav S.
Maity, Arnab
Cryptography and Security
We present MAVShield, a novel lightweight cipher designed to secure communications in Unmanned Aerial Vehicles (UAVs) using the MAVLink protocol, which by default transmits unencrypted messages between UAVs and Ground Control Stations (GCS). While existing studies propose encryption for MAVLink, most remain theoretical or simulation-based. We implement MAVShield alongside AES-CTR, ChaCha20, Speck-CTR, and Rabbit, and evaluate them on a real drone testbed. A comprehensive security analysis using statistical test suites (NIST and Diehard) demonstrates strong resistance of the novel cipher to cryptanalysis. Performance evaluation across key metrics including memory usage, CPU load, and battery power consumption, demonstrates that MAVShield outperforms existing algorithms and offers an efficient, real-world solution for securing MAVLink communications in UAVs.
title A Novel Cipher for Enhancing MAVLink Security: Design, Security Analysis, and Performance Evaluation Using a Drone Testbed
topic Cryptography and Security
url https://arxiv.org/abs/2504.20626