The automobile industry no longer relies on pure mechanical systems; instead, it benefits from many smart features based on advanced embedded electronics. Although the rise in electronics and connectivity has improved comfort, functionality, and safe driving, it has also created new attack surfaces to penetrate the in-vehicle communication network, which was initially designed as a close loop system. For such applications, the Controller Area Network (CAN) is the most-widely used communication protocol, which still suffers from various security issues because of the lack of encryption and authentication. As a result, any malicious/hijacked node can cause catastrophic accidents and financial loss. This paper analyses the CAN bus comprehensively to provide an outlook on security concerns. It also presents the security vulnerabilities of the CAN and a state-of-the-art attack surface with cases of implemented attack scenarios and goes through different solutions that assist in attack prevention, mainly based on an intrusion detection system (IDS).
Sensors, Free Full-Text, thomas mitchell overton execution
Sensors, Free Full-Text, Active Electric Dipole Energy Sources: Transduction via Electric Scalar and Vector Po…
Sensors Toolbox - Apps on Google Play
Sensors for Pressure Mapping and Force Measurement
LG 7.4 Cu. Ft. Vented SMART Stackable Electric Dryer in Black Steel with TurboSteam and Sensor Dry Technology DLEX4000B - The Home Depot
Angewandte Chemie - Wiley Online Library
IPHONE IC – McareSpareParts
Sensors, Free Full-Text
Sensors, Free Full-Text
Apple Watch Ultra 2 - Apple
Free Sensors eBooks
1 Channel Infrared Tracking Sensor Fc 123 Black And White Line Detection Sensor For Smart Car Tracing
Sensors, Free Full-Text, ray manchester x reader
PAPER SENSOR|PRODUCTS|KODENSHI CORP.