Abstract
Among the driving possible scenarios in highways, the overtaking maneuver is one of the most challenging. Its high complexity along with the interest in automated cooperative vehicles make this maneuver one of the most studied topics on the field on last years. It involves a great interaction between both longitudinal (throttle and brake) and lateral (steering) actuators. This work presents a three phases overtaking path planning using Bézier curves, with special interest in the continuity of the curvature. Communication among the vehicles is also considered. Finally, the maneuver will be validated using Dynacar, a dynamic model vehicle simulator.
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References
Peréz, J., Lattarulo, R., Nashashibi, F.: Dynamic trajectory generation using continuous-curvature algorithms for door to door assistance vehicles. In: IEEE Intelligent Vehicle Symposium (IV), pp. 510–515 (2014)
González, D., Peréz, J., Milanés, V., Nashashibi, F.: A review of motion planning techniques for automated vehicles. IEEE Trans. Intell. Transp. Syst. 17, 1135–1145 (2015)
Lattarulo, R., Pérez, J., Dendaluce, M.: A complete modular framework for developing and testing automated driving controllers. In: IFAC World Congress, Toulouse, France (2017)
González, D., Pérez, J.: Control architecture for cybernetics transportation systems in urban environments. In: IEEE Intelligent Vehicle Symposium, Gold Coast, Australia, pp. 1119–1124, June 2013
Naranjo, J.E., Gonzalez, C., Garcia, R., de Pedro, T.: Lane-change fuzzy control in autonomous vehicles for the overtaking maneuver. IEEE Trans. Intell. Transp. Syst. 9(3), 438–450 (2008)
Katrakazas, C., Quddus, M., Chen, W.-H., Deka, L.: Real-time motion planning methods for autonomous on-road driving: State-of-the-art and future research directions. Transp. Res. Part C 60, 416–442 (2015)
González, D.: Functional Architecture For Automated Vehicles Trajectory Planning in Complex Environments. Doctoral school n432, April 2017
Upadhyay, S., Ratnoo, A.: Continuous-curvature path planning with obstacle avoidance using four parameter logistic curves. IEEE Robot. Autom. Lett. 1(2), 609–616 (2016)
Farouki, R.T.: Pythagorean-Hodograph Curves: Algebra and Geometry Inseparable, vol. 1. Springer Science & Business Media (2008)
Yang, K., Sukkarieh, S.: An analytical continuous-curvature path-smoothing algorithm. IEEE Trans. Robot. 26(3), 561–568 (2010)
Acknowledgment
This work is partly supported by the H2020 project UnCoVerCPS with grant number 643921.
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Lattarulo, R., Marcano, M., Pérez, J. (2018). Overtaking Maneuver for Automated Driving Using Virtual Environments. In: Moreno-Díaz, R., Pichler, F., Quesada-Arencibia, A. (eds) Computer Aided Systems Theory – EUROCAST 2017. EUROCAST 2017. Lecture Notes in Computer Science(), vol 10672. Springer, Cham. https://doi.org/10.1007/978-3-319-74727-9_54
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DOI: https://doi.org/10.1007/978-3-319-74727-9_54
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