On the application of sensor authentication with intrinsic physical features to vehicle security

Cybersecurity in the automotive sector is becoming increasingly important as modern vehicles can be exposed to cybersecurity threats and regulatory fraud. Sensor identification and authentication is an important function in the vehicle life cycle. This paper proposes an alternative or complementary identification and authentication approach to cryptographic techniques based on the physical properties of the Hall sensor, which is commonly used in odometers and motion sensors. The application of different signal processing algorithms to an experimental dataset of 12 Hall sensors was evaluated. In particular, a dimensionality reduction with decimation filters was applied to improve the time efficiency of the identification and authentication process while achieving high identification accuracy (accuracy=95%) and high authentication accuracy. In addition, the results show that different transformations with different hyperparameters are able to generate a wide range of challenges and responses to support the authentication process.

Automated summary

The paper presents an alternative or complementary approach to identification and authentication based on physical properties of Hall sensors commonly used in vehicles. Different signal processing algorithms were applied to evaluate the experimental dataset, with dimensionality reduction using decimation filters to improve time efficiency while maintaining high accuracy in identification and authentication processes.