Paper Infomation
Design of Multiple Motorcycle(Electric Vehicle) Anti-theft Lock
Full Text(PDF, 119KB)
Author: Bin Ling, Jian-hua Cai, Ling Zhang
Abstract: Electric vehicle anti-theft locks system is composed of SCM, Vibration sensors, Infrared transceiver module and Infrared distance sensor, GSM, keyboard, and display with models for 1602. The system proposed in this paper is available to sent the abnormal information about electric vehicle to owner’s mobile phone to realize the goal of remote prevention; if necessary, the owner can control electric vehicle by means of SMS to get the goal. In addition, the system is set with backup system in case of which the key of electric vehicle is out of hand, however, the availability of this case is limited to two times. The anti-theft system holds distinct features, simplicity in operation and high performance in anti-theft as well as low cost.
Keywords: Electric Vehicle; MCU; GSM Communication; Infrared Distance Sensor; A-Range-Theft
References:
[1] WANG D.YUK. Functional Design of FPGA in a Brushless DC Motor System based on FPGA and DSP[C] IEEE Conference on Vehicle Power and Propulsion Conference Harbini [s.n.], 2008: 1-4.
[2] Ryu S H, Park J H. Fuzzy logic based tuning of sliding-mode controller for robot trajectory control [J].Proc. IEEE Int. Conf. on Robotics and Automation, 2001, 3.
[3] Wang W, Yi J, Zhao D, Liu D. Design of a stable sliding –mode controller for a class of second -order under actuated systems [J].Proc. IEEE Control Theory Application, 2004,6.
[4] KR.Santha, V.Vaidehi. Parallel –Pipelined Architecture for the Kalman Based Adaptive Equalizer [J]. Signal Processing, Communications and Networking, 2007.ICSCN '07.2007
[5] Clifford E. Cummings, Sunburst Design, Inc. Simulation and Synthesis Techniques for Asynchronous FIFO Design [M]. SNUG San Jose 2002.
[6] Sun Micro Systems, Inc. “Java Card Platform, version 3.0 Connected Edition”, March, 2008.
[7] Sensirion Company. SHT1x /SHT7x humidity & temperature sensor datasheet [Z]. 2005.
[8] Sanchez-Pena J M,Marcos C,Fernandez M Y. Cost-effective optoelectronic system to measure the projectile velocity in high-velocity impact testing of aircraft and spacecraft structural elements[J].Optical Engineering, 2005, 46(5).
[9] MACHACEK J. Control of Serlia Port(RS232) Communication in Lab VIEW[J] 2008 International Confernce Modern Technique and Technologies. 2008.
[10] Fabian Czerwinski Time Streaming. VI: Lab-VIEW Program for Reliable Data Streaming of Large Analog Time Series[J] Computer Physics Communications ,2011;182,485-489.
[11] IQURE V. Security issues in SCADA networks [J].Computers and Security, 2006, 25(7):498-506.