A Machine Learning Approach for the Detection of Injection Attacks on ADS-B Messaging Systems

This work proposes the use of machine learning (ML) as a candidate for the detection of various types of message injection attacks against automatic dependent surveillance-broadcast (ADSB) messaging systems. Authentic ADS-B messages from a high-traffic area are collected from an open-source platform...

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Published in	2023 International Conference on Computing, Networking and Communications (ICNC) pp. 293 - 297
Main Authors	Price, Joshua, Slimane, Hadjar Ould, Shamaileh, Khair Al, Devabhaktuni, Vijay, Kaabouch, Naima
Format	Conference Proceeding
Language	English
Published	IEEE 20.02.2023
Subjects	Analytical models Atmospheric modeling Automatic dependent surveillance-broadcast (ADS-B) Computational modeling Feature extraction federal aviation administration (FAA) Machine learning machine learning (ML) Measurement message injection national airspace system (NAS) Predictive models
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Abstract	This work proposes the use of machine learning (ML) as a candidate for the detection of various types of message injection attacks against automatic dependent surveillance-broadcast (ADSB) messaging systems. Authentic ADS-B messages from a high-traffic area are collected from an open-source platform. These messages are combined with others imposing path modification, ghost aircraft injection, and velocity drift obtained from simulations. Then, ADS-B-related features are extracted from such messages and used to train different ML models for binary classification. For this purpose, authentic ADS-B data is considered as Class 1 (i.e., no attack), while the injection attacks are considered as Class 2 (i.e., presence of attack). The performance of the models is analyzed with metrics, including detection, misdetection, and false alarm rates, as well as validation accuracy, precision, recall, and Fl-score. The resulting models enable identifying the presence of injection attacks with a detection rate of 99.05%, and false alarm and misdetection rates of 0.76% and 1.10%, respectively.
AbstractList	This work proposes the use of machine learning (ML) as a candidate for the detection of various types of message injection attacks against automatic dependent surveillance-broadcast (ADSB) messaging systems. Authentic ADS-B messages from a high-traffic area are collected from an open-source platform. These messages are combined with others imposing path modification, ghost aircraft injection, and velocity drift obtained from simulations. Then, ADS-B-related features are extracted from such messages and used to train different ML models for binary classification. For this purpose, authentic ADS-B data is considered as Class 1 (i.e., no attack), while the injection attacks are considered as Class 2 (i.e., presence of attack). The performance of the models is analyzed with metrics, including detection, misdetection, and false alarm rates, as well as validation accuracy, precision, recall, and Fl-score. The resulting models enable identifying the presence of injection attacks with a detection rate of 99.05%, and false alarm and misdetection rates of 0.76% and 1.10%, respectively.
Author	Shamaileh, Khair Al Slimane, Hadjar Ould Devabhaktuni, Vijay Kaabouch, Naima Price, Joshua
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Snippet	This work proposes the use of machine learning (ML) as a candidate for the detection of various types of message injection attacks against automatic dependent...
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SubjectTerms	Analytical models Atmospheric modeling Automatic dependent surveillance-broadcast (ADS-B) Computational modeling Feature extraction federal aviation administration (FAA) Machine learning machine learning (ML) Measurement message injection national airspace system (NAS) Predictive models
Title	A Machine Learning Approach for the Detection of Injection Attacks on ADS-B Messaging Systems
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