Volume 13, Issue 2 (Journal of Control, V.13, N.2 Summer 2019)                   JoC 2019, 13(2): 33-42 | Back to browse issues page

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Khalili E, Ghaisari J, Danesh M. Design and implementation of an automatic car turning system. JoC 2019; 13 (2) :33-42
URL: http://joc.kntu.ac.ir/article-1-477-en.html
1- Isfahan university of technology
Abstract:   (4941 Views)

In this paper, a control system is designed for automatic car turning. At first, the necessary information of car turning that were collected from the traffic bylaw, car driving training centers and traffic police are explained. Then, car turning is studied experimentally on several streets with different widths. Afterward, a proper path is designed for the automatic car turning system considering traffic rules and nonholonomic constraint. Also, an appropriate sliding mode controller is designed and a novel fuzzy decision making system is proposed for the automatic car turning system. A car like mobile robot is designed and manufactured based on small scale parameters of a sedan car. Finally, the automatic car turning system is implemented on this car like mobile robot. Simulation and experimental results of the designed control system confirm the effectiveness of the proposed control system.

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Type of Article: Research paper | Subject: Special
Received: 2017/04/27 | Accepted: 2018/07/4 | Published: 2019/10/2

1. Fairus, M.A., Najib Sy, S., Jamaludin, I.W. and Kamarudin, M., "Development of an Automatic Parallel Parking System for Nonholonomic Mobile Robot," Electrical, Control and Computer Engineering (INECCE), pp. 45-49, 2011. [DOI:10.1109/INECCE.2011.5953847]
2. Vorobieva, H., Glaser, S., Enache, N. and Mammar, S., "Automatic Parallel Parking with Geometric Continuous-Curvature Path Planning," IEEE Intelligent Vehicles Symposium Proceedings, pp. 465-471, 2014 [DOI:10.1109/IVS.2014.6856443]
3. Guoqiang, Z. and Zhao, L.,"A Fuzzy Controller Based on Improved Ant Colony Algorithm for Parallel Automatic Parking," International Journal of Applied Mathematics and Statistics, no. 20, pp. 83-93, 2013.
4. Dong, H., Jin, Sh. and Hou, Z., "Model Free Adaptive Control for Automatic Car Parking Systems," Intelligent Control and Automation (WCICA), pp. 1769-1774, 2014. [DOI:10.1109/WCICA.2014.7052988]
5. Naderi Samani, N., Danesh, M. and Ghaisari, J., "Parallel Parking of a Car-Like Mobile Robot Based on the P-Domain Path Tracking Controllers," IET Control Theory & Applications, vol. 10, no. 5, pp. 564-572, 2016.
6. Naderi Samani, N., Ghaisari, J. and Danesh, M., "Autonomous Parallel Parking of a Vehicle in a Limited Space Using a RBF Network and a Feedback Linearization Controller," Computer and Knowledge Engineering (ICCKE), pp. 117-122, 2012. [DOI:10.1109/ICCKE.2012.6395363]
7. Zhang, S., Simkani, M. and Zadeh, M., "Automatic Vehicle Parallel Parking Design Using Fifth Degree Polynomial Path Planning," Vehicular Technology Conference, pp. 1-4, 2011. [DOI:10.1109/VETECF.2011.6093275]
8. Vorobieva, H., Glaser, S., Enache, N. and Mammar, S., "Automatic Parallel Parking in Tiny Spots: Path Planning and Control," IEEE Transactions on Intelligent Transportation Systems, vol. 16, no. 1, pp. 396-410, 2015. [DOI:10.1109/TITS.2014.2335054]
9. Cheein, A., Carelli, R., Cruz, C. and Bastos-Filho, T., "SLAM-Based Turning Strategy in Restricted Environments for Car-Like Mobile Robots," Industrial Technology (ICIT), pp. 602-607, 2010. [DOI:10.1109/ICIT.2010.5472734]
10. Egerstedt, M. and Stotsky, A., "Control of a Car-Like Robot Using a Dynamic Model," IEEE International Conference, vol. 4, pp. 3273-3278, 1998.
11. Zhang, S.J. and Rachid, A., "Sliding Mode Controller for Automatic Steering of Vehicles," The 27th Annual Conference of the IEEE Industrial Electronics Society, vol. 3, pp. 2149-2153, 2001.
12. Azadi, S. and Taherkhani, Z.,"Autonomous Parallel Parking of a Car Based on Parking Space Detection and Fuzzy Controller," International Journal of Automotive Engineering, vol. 2, no. 1, pp. 30-37, 2012.
13. Pepy, R., Lambert, A. and Mounier, H.,"Path Planning using a Dynamic Vehicle Model," 2nd International Conference on Information & Communication vol. 1, pp. 781-786, 2006.
14. Baturone, I., Moreno-Velo, F., Sanchez-solano, S. and Ollero, A., "Automatic design of fuzzy controllers for car-like autonomous robots," IEEE Transactions on Fuzzy Systems, vol. 12, no. 4, pp. 447-465, 2004. [DOI:10.1109/TFUZZ.2004.832532]
15. عيدی، ع، 1389، "استراتژی کوتاه‌ترين مسير در هدايت پويای وسيله نقليه مبتنی بر معيار سطح سرويس- رويکرد الگوريتم ژنتيک ترکيبی"، نشريه بين‌المللی مهندسی صنايع و مديريت توليد، شماره 3، جلد 21.
16. رضايی، م، محبوب‌خواه، ر و مينايی، م، 1389، "بررسی رفتار ديناميکی خودرو و پاسخ آن به انواع مانورهای تغيير مسير"، يازدهمين کنفرانس مهندسی ساخت و توليد ايران.

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