References
- [1] L. Chen, X. Hu, B. Tang, Y. Cheng, “Conditional DQN-Based Motion Planning With Fuzzy Logic for Autonomous Driving,” In IEEE Transactions on Intelligent Transportation Systems, doi: 10.1109/TITS.2020.3025671.10.1109/TITS.2020.3025671
- [2] K. Chellapilla, Rethinking aps for self-driving, [online] https://medium.com/lyftself-driving/https-medium-com-lyftlevel5-rethinking-maps-for-self-driving-a147c24758d6
- [3] S. Coskun, R. Langari, “Predictive Fuzzy Markov Decision Strategy for Autonomous Driving in Highways”, In IEEE Conference on Control Technology and Applications (CCTA), 2018, pp. 1032-1039, doi: 10.1109/CCTA.2018.8511369.10.1109/CCTA.2018.8511369
- [4] P. Corsini, V. Leoreanu, Applications of Hyperstructure Theory; Kluwer Academic Publishers: Dodrecht – Boston – London, 2003.10.1007/978-1-4757-3714-1
- [5] I. Cristea, M. Ştefanescu, Hypergroups and n-ary relations, European J. Combin., 31(3) (2010), 780-789.10.1016/j.ejc.2009.07.005
- [6] T. Dahlstrom, How Accurate Are HD Maps for Autonomous Driving and ADAS Simulation? [online] https://news.atlatec.de/how-accurate-are-hd-maps-for-autonomous-driving-and-adas-simulation/ 2020.
- [7] B. Davvaz, T. Vougiouklis, n–ary hypergroups, Iran. J. Sci. Technol. Trans. A-Sci., 30(A2) (2006), 165–174.
- [8] T. Dias, J. Ribeiro, L. Moura, D. Juregui, M. Miranda, J. Almeida, M. Jooriah, HD Maps in the 5G-MOBIX project, IEEE 5G for CAM Summit, 2021.
- [9] M. Gleirscher, R. Calinescu, J. Woodcock, RISKSTRUCTURES: A design algebra for risk-aware machines. Form. Asp. Comp. (2021). doi: 10.1007/s00165-021-00545-4.10.1007/s00165-021-00545-4
- [10] M. Hamdi, N. Boudriga, Algebraic specification of network security risk management. In Proceedings of the 2003 ACM workshop on Formal methods in security engineering (FMSE ’03), Association for Computing Machinery, New York, NY, USA, 2003, doi:https://doi.org/10.1145/1035429.1035435.10.1145/1035429.1035435
- [11] C. Kim, S. Cho, M. Sunwoo, K. Jo, Crowd-Sourced Mapping of New Feature Layer for High-Definition Map. Sensors. 18(2018)(12), 4172.10.3390/s18124172630854030487399
- [12] Š. Křehlík, n-ary Cartesian Composition of Multiautomata with Internal Link for Autonomous Control of Lane Shifting. Mathematics 2020, 8 (5), 83510.3390/math8050835
- [13] Š. Křehlík, J. Vyroubalová, The Symmetry of Lower and Upper Approximations, Determined by a Cyclic Hypergroup, Applicable in Control Theory, Symmetry 12(2020),(1) 54.10.3390/sym12010054
- [14] S. Liu, L. Li, J. Tang, S. Wu, J-L. Gaaudiot, Creating Autonomous Vehicle Systems, Morgan & Claypool, 2018.10.1007/978-3-031-01802-2
- [15] R. Liu, J. Wang, B. Zhang, High Definition Map for Automated Driving: Overview and Analysis. Journal of Navigation, 73(2020)(2), 324-341.10.1017/S0373463319000638
- [16] K. Ma, H. Wang, A Cellular Automaton Model Considering the Exclusive Lanes of Autonomous Vehicles on Expressway, In CICTP 2019: Transportation in China: Connecting the World, 2019, doi:10.1061/9780784482292.477.10.1061/9780784482292.477
- [17] L. Ma, Y. Li, J. Li, Z. Zhong, M. A. Chapman, Generation of horizontally curved driving lines in HD maps using mobile laser scanning point clouds, IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 12(2019)(5), 1572-1586.10.1109/JSTARS.2019.2904514
- [18] Ch. Massouros, G. Massouros, An Overview of the Foundations of the Hypergroup Theory, Mathematics 2021, 9 (9), 1014.10.3390/math9091014
- [19] Ch. Massouros, G. Massouros, Hypercompositional Algebra, Computer Science and Geometry, Mathematics 2020, 8 (8), 138.10.3390/math8081338
- [20] S. Mirvakili, (i,j)-transposition n-ary hypergroups, In The Extended Abstracts of Posters of The 44th Annual Iranian Mathematics Conference, 27-30 August 2013, Ferdowsi University of Mashad, Iran, pp. 141-144.
- [21] S. Mirvakili, B. Davvaz, On some combinatorial aspects of transposition n-ary hypergroups, Carpathian J. Math., 30(2014)(1), 109–116.10.37193/CJM.2014.01.15
- [22] M. Norouzi, I. Cristea, Hyperrings with n-ary composition hyperoperation, J. Alg. Appl., 17(2) (2018), 1850022.10.1142/S0219498818500226
- [23] J. P. Rastelli, M. S. Penas, Fuzzy logic steering control of autonomous vehicles inside roundabouts, Appl. Soft Comput. 35(2015), 662-669.10.1016/j.asoc.2015.06.030
- [24] Toyota Research Institute – Advanced Development, Inc., TRI-AD enables successful creation of HD maps for automated driving on surface roads, [online] https://global.toyota/en/newsroom/corporate/31898884.html, 2020.
- [25] T. Vranken, B. Sliwa, C. Wietfeld, M. Schreckenberg, Adapting a cellular automata model to describe heterogeneous traffic with human-driven, automated, and communicating automated vehicles, Physica A: Statistical Mechanics and its Applications, 570(2021), 125792.10.1016/j.physa.2021.125792
- [26] L. Wan, Y. Sun, L. Sun, Z. Ning and J. J. P. C. Rodrigues, “Deep Learning Based Autonomous Vehicle Super Resolution DOA Estimation for Safety Driving,” In IEEE Transactions on Intelligent Transportation Systems, doi: 10.1109/TITS.2020.3009223.10.1109/TITS.2020.3009223
- [27] L. Ye, T. Yamamoto, Modeling connected and autonomous vehicles in heterogeneous traffic flow, Physica A: Statistical Mechanics and its Applications, 490(2018), 269-277.10.1016/j.physa.2017.08.015