Abstract
Modern auto-vehicles are built upon a vast collection of sensors that provide large amounts of data processed by dozens of Electronic Control Units (ECUs). These, in turn, monitor and control advanced technological systems providing a large palette of features to the vehicle’s end-users (e.g., automated parking, autonomous vehicles). As modern cars become more and more interconnected with external systems (e.g., cloud-based services), enforcing privacy on data originating from vehicle sensors is becoming a challenging research topic. In contrast, deliberate manipulations of vehicle components, known as tampering, require careful (and remote) monitoring of the vehicle via data transmissions and processing. In this context, this paper documents an efficient methodology for data privacy protection, which can be integrated into modern vehicles. The approach leverages the Fast Fourier Transform (FFT) as a core data transformation algorithm, accompanied by filters and additional transformations. The methodology is seconded by a Random Forest-based regression technique enriched with further statistical analysis for tampering detection in the case of anonymized data. Experimental results, conducted on a data set collected from the On-Board Diagnostics (OBD II) port of a 2015 EUR6 Skoda Rapid 1.2 L TSI passenger vehicle, demonstrate that the restored time-domain data preserves the characteristics required by additional processing algorithms (e.g., tampering detection), showing at the same time an adjustable level of privacy. Moreover, tampering detection is shown to be 100% effective in certain scenarios, even in the context of anonymized data.
Highlights
Technological advancements have entirely reshaped the automotive industry
Modern auto-vehicles are built upon a vast collection of sensors that provide a large amount of data processed by dozens of Electronic Control Units (ECUs) [1]
Electronics 2021, 10, 3161 by experimental results conducted on a data set collected from the On-Board Diagnostics (OBD II) port of a 2015 EUR6 Skoda Rapid 1.2L TSI passenger vehicle, the restored data preserves the required characteristics for tampering detection
Summary
Technological advancements have entirely reshaped the automotive industry. Modern auto-vehicles are built upon a vast collection of sensors that provide a large amount of data processed by dozens of Electronic Control Units (ECUs) [1]. As modern cars become more and more integrated with external systems (e.g., cloudassisted monitoring and remote control), decisions are being taken at a rapid pace both locally, within ECUs, as well as in various external systems These external components are aimed at facilitating advanced processing and, to support the vehicle in delivering its modern features (e.g., anomaly detection modules, diagnostics systems). The anonymization (sometimes called sanitation [20]) consists of deleting, replacing, or hashing all the personally identifiable information (PII) within a data set. This process does not reduce the data quality, and anonymized data can be safely transported over the Internet. Two main advantages of perturbation are worth mentioning: it does not require additional knowledge of other records and its computational complexity is low [20]
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