The article introduces a new testing platform designed to enhance security research by allowing researchers to configure ECU networks effectively. Unlike simulation-based environments that lack real-world aspects, this platform integrates automotive-grade microcontrollers for precise timing and realistic characteristics vital for sophisticated testing methods. It showcases the implementation of various open-source projects using this platform and highlights its utility in efficiently conducting security experiments. Overall, this approach aims to improve research outcomes by bridging gaps between theory and practice in automotive security testing.
Our testing platform enables researchers to rapidly configure ECU networks necessary for effective security testing, integrating real-world characteristics previously lacking in simulation environments.
The inclusion of a programmable ECU on the network enhances the testbed functionality, allowing for detailed attack simulations and precise timing that are essential for advanced research.
By leveraging a single bench of ECUs, we demonstrate the efficiency of our platform through practical implementations of established research initiatives, showcasing its adaptability in various testing scenarios.
Our focus on an automotive-grade MCU allows researchers to conduct experiments that reflect real-world conditions, bridging the gap between theoretical and practical security testing.
Collection
[
|
...
]