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Keystroke Transcription from Acoustic Emanations Using Continuous Wavelet Transform
Date
2024-04-01
Author
Özkan, Abdullah
Günel Kılıç, Banu
Acarturk, Cengiz
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Acoustic propagation is a notable pathway, enabling information input via a keyboard to potentially leak. This type of attack, which leverages the processing of keystroke sounds to capture data, has been the subject of various proposed methodologies. However, the application of continuous wavelet transforms for this purpose remains largely unexplored. The continuous wavelet transform provides better resolution in both time and frequency for impulse-like signals. As such, this transformation proves more effective for analyzing keystroke sounds in comparison to conventional transform methods. We propose a method based on machine learning to analyze features. This process involves transcribing keystrokes from the acoustic emanations of a keyboard, utilizing wave files as input. Consequently, this allows the recovery of pressed keys as output, achieving an accuracy rate of up to 80.3%.
URI
https://link.springer.com/book/10.1007/978-981-97-2458-1
https://hdl.handle.net/11511/112820
Relation
Machine Learning for Cyber Security
Collections
Graduate School of Informatics, Book / Book chapter
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A. Özkan, B. Günel Kılıç, and C. Acarturk,
Keystroke Transcription from Acoustic Emanations Using Continuous Wavelet Transform
. 2024.
