Abstract
Due to the problem of low security in traditional car anti-theft systems, an intelligent remote anti-theft system for cars was designed with ARM chip TMS320DSC2X as the core control. Firstly, the overall structural and functional design of the intelligent remote anti-theft system was carried out. Then, the hardware structure and circuit design of the intelligent remote anti-theft system were carried out, including ARM chip circuit control system circuit design, wireless communication GSM module circuit design, voice module circuit design, automotive circuit control module design, and wireless remote control module circuit design. Finally, the software process design of the intelligent remote anti-theft system was carried out. The intelligent remote anti-theft system of this car can effectively handle detected abnormal situations in real time, driving the voice module to provide correct voice reminders, greatly improving the safety of car protection.
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References
Feng Y, Yu XH, Man ZH (2002) Non-singular terminal sliding mode control of rigid manipulators. Automatica 38(12):2159–2167
Fang C, Huang C, Lin S (2012) Adaptive sliding-mode torque control of a PM synchronous motor. IEE Proc Electr Power Appl 149(3):228–236
Qiao L, Zhang WD (2017) Adaptive non-singular integral terminal sliding mode tracking control for autonomous underwater vehicles. IET Control Theory Appl 11(8):1293–1306
Zhang J, Shao X, Zhang W, Na J (2022) Path-following control capable of reinforcing transient performances for networked mobile robots over a single curve. IEEE Trans Instrum Meas 11(4):202–211
Shao X, Zhang J, Xu L, Zhang W (2022) Appointed-time guaranteed adaptive fault-tolerant attitude tracking for quadrotors with aperiodic data updating. Aerosp Sci Technol
Zhang W, Shao X, Zhang W, Qi J, Li H (2022) Unknown input observer-based appointed-time funnel control for quadrotors. Aerosp Sci Technol 12(6):1–11
Yang M, Lang X, Long J, Xu D (2017) Flux immunity robust predictive current control with incremental model and extended state observer for PMSM drive. IEEE Trans Power Electron 32(12):9267–9279
Li S, Won H, Fu X, Fairbank M, Wunsch DC, Alonso E (2020) Neural-network vector controller for permanent-magnet synchronous motor drives: simulated and hardware-validated results. IEEE Trans Cybern 50(7):3218–3230
Acknowledgements
This work was supported in part by Natural Research Science Institute of Anhui Provincial Department of Education (2022AH051379); Natural Research Science Institute of Anhui Provincial Department of Education(KJ2021A1110); Suzhou University Doctoral Research Initiation Fund Project (2023BSK023); Suzhou University School Level Quality Engineering Project (szxy2023jyjf82); School level teaching and research project (szxy2022jyxm40); The Ministry of Education's Industry School Cooperation Collaborative Education Project (202102076023).
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Zhang, X., Liu, W., Zhou, W. (2024). Research and Design of Automobile Intelligent Remote Theft Deterrent System Based on ARM Chip. In: Wang, W., Liu, X., Na, Z., Zhang, B. (eds) Communications, Signal Processing, and Systems. CSPS 2023. Lecture Notes in Electrical Engineering, vol 1033. Springer, Singapore. https://doi.org/10.1007/978-981-99-7502-0_34
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DOI: https://doi.org/10.1007/978-981-99-7502-0_34
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