Authors:
Adrian Musuroi
;
Bogdan Groza
;
Stefan Murvay
and
Horatiu Gurban
Affiliation:
Faculty of Automatics and Computers, Politehnica University, Vasile Parvan Boulevard, Timisoara and Romania
Keyword(s):
Sensor, Tire Pressure Monitoring, Rain-light Sensors.
Related
Ontology
Subjects/Areas/Topics:
Modeling, Algorithms, and Performance Evaluation
;
Sensor, Mesh and Ad Hoc Communications and Networks
;
Telecommunications
;
Wireless Information Networks and Systems
Abstract:
In recent years, the security of in-vehicle buses and components has been extensively addressed, but only a few research works considered the security of low-end in-vehicle sensors. The main problem in addressing such components stems from the numerous constraints, both in terms of computational power, since most sensors are equipped with low-speed 8 bit controllers, and low bandwidth. In this work we use as a case study a tire-pressure sensor and a rain-light sensor. The first communicates over radio-frequency while the second uses a low-speed in-vehicle bus, both interfaces having a very low bandwidth and reduced packet size of only 64 bits. Under these constraints we discuss the design of a cryptographic security protocol based on an existing lightweight block cipher in order to assure both security and privacy objectives.