PASSENGER GROUND VEHICLE LIVE PARAMETER MONITORING AND GOVERNING USING AUTOMOTIVE IVN PROTOTYPE MODEL
DOI:
https://doi.org/10.53555/eijse.v5i2.102Keywords:
Passenger Vehicle Data Monitoring, Controller area network (CAN bus), Vector Tool used for Real Time data logging and analysis of vehicle network(CANoe), In-Vehicle Networking (IVN), Open source Index (OSI), modern Electronic Control Unit (ECU)Abstract
Now a day the ground passenger vehicle safety becomes the most sensitive and major research area. There are many distributed sensors placed inside these vehicle for continually monitoring and actuating various moving and non-moving components of the vehicle. Thus in-vehicle based modern networking bus used to communicate data between various distributed sensor and actuator nodes, This paper describe the novel efficient implementation between Electronic control unit (ECU) and the distinguished CAN (controller area network) protocol utilized across most of the automotive industry, designed and maintained by Robert Boschs. The CAN based ECU system is implemented using three PIC microcontroller boards. The system is explain in simple way to understand the most difficult part of passenger vehicle. Real time system is prototypes and simulates within controlled environment, tested with all the possibilities and presumes conditions focusing towards all the real-world conditions. The system having multiple displays and indicators to indicate various parameters. The observations are analyzed and found satisfactory; the in vehicle network (IVN) is wider and sensitive subject which is studied extensively by most of the automotive abd allied industry. This research paper is the novel resemblance of the in vehicle CAN bus network in prototype presentation.
References
. Karl Henrik Johansson, Martin Törngren, and Lars Nielsen, “Vehicle Application of Controller Area Network”.proc of The Handbook of Networked and Embedded Control Systems Control Engineering, 2005, VI, pp.741-76
. Renjun Li, Chu Liu and Feng Luo, “A Design for Automotive CAN Bus Monitoring System”, IEEE Vehicle Power and Propulsion Conference (VPPC), September 3-5, 2008, Harbin, China I.S. Jacobs and C.P. Bean, “Fine particles, thin films and exchange anisotropy,” in Magnetism, vol. III, G.T. Rado and H. Suhl, Eds. New York: Academic, 1963, pp. 271-350.
. CAN specification version 2.0. Robert Bosch GmbH, Stuttgart, Germany, 1991.
. Wilfried Voss, “A Comprehensible Guide to J1939”, Published by Copperhill Technologies Corporation.
. Steve Corrigan, “Introduction to the Controller Area Network”, Published by Texas Instruments Application Report,SLOA101A, August 2002–RevisedJuly2008
. Microchip Technology Inc. DS41159E: PIC18FXX8 Data Sheet Pat Richards, “A CAN physical layer discussion”, Microchip Technology Inc.DS00228A
. CAN specification version 2.0. Robert Bosch GmbH, Stuttgart, Germany, 1991.
. Wilfried Voss, “A Comprehensible Guide to J1939”, Published by Copperhill Technologies Corporation.
. National Semiconductor, “LM35 Precision Centigrade Temperature Sensors Data sheet”, National Semiconductor Corporation, November 2000.
. National Semiconductor, “LM35 Precision Centigrade Temperature Sensors Data sheet”, National Semiconductor Corporation, November 2000.
. BS IV regulations April 2010.
. Fairchild, Ray, M., Snyder, Rick B., Berlin, Carl W.,Sarma, D. H. R “Emerging Substrate Technologies for Harsh-Environment Automotive Electronics Applications", Society of Automotive Engineers Technical Paper Series 2002-011052(2002).
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