Title :
Wireless controller area network for in-vehicle communication
Author :
Laifenfeld, Moshe ; Philosof, Tal
Author_Institution :
R&D, Gen. Motors, Hertzelia, Israel
Abstract :
One of the major challenges of today´s in-vehicle electrical architecture is the rapidly increasing complexity of interconnecting controllers, sensors, actuators and other on-board electronic components. Traditionally, this task is accomplished using standard wired bus technologies such as Controller Area Network (CAN). In this paper we introduce the Vehicular wIreless CAN (ViCAN) - a CAN based hybrid communication architecture that is tailored to the in-vehicle environment and that aims at reducing wiring complexity by combining wireless and traditional wired CAN physical layers in a cost effective and seamless fashion. We show by analysis that such a hybrid architecture can potentially support highly reliable end-to-end communication with very low complexity and no/small degradation in data-rate.
Keywords :
circuit complexity; controller area networks; on-board communications; protocols; radio networks; CAN based hybrid communication architecture; ViCAN; actuator complexity; controller area network; data-rate; end-to-end communication reliability; in-vehicle communication; in-vehicle electrical architecture; interconnecting controller complexity; on-board electronic components; sensor complexity; standard wired bus technology; vehicular wireless CAN; wired CAN physical layers; wireless controller area network; wiring complexity reduction; Physical layer; Receivers; Relays; Reliability; Signal to noise ratio; Wireless communication; Wireless sensor networks; CAN Protocol; Hybrid Architecture; Wired Communication; Wireless Communication;
Conference_Titel :
Electrical & Electronics Engineers in Israel (IEEEI), 2014 IEEE 28th Convention of
Conference_Location :
Eilat
Print_ISBN :
978-1-4799-5987-7
DOI :
10.1109/EEEI.2014.7005751
