Practical side-channel based model extraction attack on tree-based machine learning algorithm

Practical side-channel based model extraction attack on tree-based machine learning algorithm

Machine learning algorithms have been widely applied to solve various type of problems and applications. Among those, decision tree based algorithms have been considered for small Internet-of-Things (IoT) implementation, due to their simplicity. It has been shown in a recent publication, that Bonsai...

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Bibliographic Details
Main Authors: Jap, Dirmanto, Yli-Mäyry, Ville, Ito, Akira, Ueno, Rei, Bhasin, Shivam, Homma, Naofumi
Other Authors: Applied Cryptography and Network Security Workshops. ACNS 2020
Format: Conference or Workshop Item
Language:English
Published: 2021
Subjects:
Engineering::Computer science and engineering::Computing methodologies
Hardware Security
Machine Learning
Online Access:https://hdl.handle.net/10356/147420
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Institution: Nanyang Technological University
Language: English
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Summary:Machine learning algorithms have been widely applied to solve various type of problems and applications. Among those, decision tree based algorithms have been considered for small Internet-of-Things (IoT) implementation, due to their simplicity. It has been shown in a recent publication, that Bonsai, a small tree-based algorithm, can be successfully fitted in a small 8-bit microcontroller. However, the security of machine learning algorithm has also been a major concern, especially with the threat of secret parameter recovery which could lead to breach of privacy. With machine learning taking over a significant proportion of industrial tasks, the security issue has become a matter of concern. Recently, secret parameter recovery for neural network based algorithm using physical side-channel leakage has been proposed. In the paper, we investigate the security of widely used decision tree algorithms running on ARM Cortex M3 platform against electromagnetic (EM) side-channel attacks. We show that by focusing on each building block function or component, one could perform divide-and-conquer approach to recover the secret parameters. To demonstrate the attack, we first report the recovery of secret parameters of Bonsai, such as, sparse projection parameters, branching function and node predictors. After the recovery of these parameters, the attacker can then reconstruct the whole architecture.

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