Mitigating Unknown Cybersecurity Threats in Performance Constrained Electronic Control Units 2018-01-0016
Externally-connected Electronic Control Units (ECUs) contain millions of lines of code, which may contain security vulnerabilities. Hackers may exploit these vulnerabilities to gain code execution privileges, which affect public safety. Traditional Cybersecurity solutions fall short in meeting automotive ECU constraints such as zero false positives, intermittent connectivity, and low performance impact. A desirable solution would be deterministic, require minimum resources, and protect against known and unknown security threats. We integrated Autonomous Security on a BeagleBone Black (BBB) system to evaluate the feasibility of mitigating Cybersecurity risks against potential threats. We identified key metrics that should be measured, such as level of security, ease of integration and system performance impact. In this paper, we describe the integration and evaluation process and present its results. We show that Autonomous Security can provide this protection with zero false-positives while meeting automotive constraints.
Citation: Harel, A., Ben David, T., Kashani, A., Iyer, G. et al., "Mitigating Unknown Cybersecurity Threats in Performance Constrained Electronic Control Units," SAE Technical Paper 2018-01-0016, 2018, https://doi.org/10.4271/2018-01-0016. Download Citation
Author(s):
Assaf Harel, Tal Ben David, Ameer Kashani, Gopalakrishnan Iyer, Ando Motonori, Egawa Masumi
Affiliated:
Karamba Security, DENSO International America Inc., DENSO Corporation
Pages: 9
Event:
WCX World Congress Experience
ISSN:
0148-7191
e-ISSN:
2688-3627
Related Topics:
Electronic control units
Cybersecurity
Connectivity
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