کیتاموئژ نیون یاهدربراک و اه یروآ نف یلم سنارفنک

           [23]  A. Jaakkola et al., “A low-cost multi-sensoral mobile mapping system and its feasibility for tree
                 measurements,” ISPRS J. Photogramm. Remote Sens., vol. 65, no. 6, pp. 514–522, 2010.
           [24]  Y. Z. Chen, H. J. Zhao, and R. Shibasaki, “A mobile system combining laser scanners and cameras
                 for urban spatial objects extraction,” Proc. Sixth Int. Conf. Mach. Learn. Cybern. ICMLC 2007, vol.
                 3, no. August, pp. 1729–1733, 2007.
           [25]  C. Ai and Y.-C. J. Tsai, “Critical Assessment of an Enhanced Traffic Sign Detection Method Using
                 Mobile LiDAR and INS Technologies,” J. Transp. Eng., vol. 141, no. 5, p. 04014096, 2015.
           [26]  S. Pu, M. Rutzinger, G. Vosselman, and S. Oude Elberink, “Recognizing basic structures from
                 mobile laser scanning data for road inventory studies,” ISPRS J. Photogramm. Remote Sens., vol. 66,
                 no. 6 SUPPL., pp. S28–S39, 2011.
           [27]  Y. Yu, J. Li, H. Guan, C. Wang, and J. Yu, “Semiautomated extraction of street light poles from
                 mobile LiDAR point-clouds,” IEEE Trans. Geosci. Remote Sens., vol. 53, no. 3, pp. 1374–1386,
                 2015.
           [28]  B. Yang, L. Fang, Q. Li, and J. Li, “Automated Extraction of Road Markings from Mobile Lidar
                 Point Clouds,” Photogramm. Eng. Remote Sens., vol. 78, no. 4, pp. 331–338, 2012.
           [29]  G. Yue, R. Liu, H. Zhang, and M. Zhou, “A Method for Extracting Street Trees from Mobile LiDAR
                 Point Clouds,” pp. 204–209, 2015.
           [30]  F. W., C. W., and J. L., “Automated extraction of urban trees from mobile LiDAR point clouds,” vol.
                 9901, no. Cvrs 2015, p. 99010P, 2016.
           [31]  W. Xiao, S. Xu, S. O. Elberink, and G. Vosselman, “Individual Tree Crown Modeling and Change
                 Detection from Airborne Lidar Data,” IEEE J. Sel. Top. Appl. Earth Obs. Remote Sens., vol. 9, no. 8,
                 pp. 3467–3477, 2016.
           [32]  R. Schnabel, R. Wahl, and R. Klein, “Efficient RANSAC for point-cloud shape detection,” Comput.
                 Graph. Forum, vol. 26, no. 2, pp. 214–226, 2007.
           [33]  C. Cabo, C. Ordoñez, S. García-Cortés, and J. Martínez, “An algorithm for automatic detection of
                 pole-like street furniture objects from Mobile Laser Scanner point clouds,” ISPRS J. Photogramm.
                 Remote Sens., vol. 87, pp. 47–56, 2014.
           [34]  X. Chen, R. Wang, and J. Bach, “Next Generation Map Making : Geo ­ Referenced Ground ­ Level
                 LIDAR Point Clouds for Automatic Retro ­ Reflective Road Feature Extraction,” pp. 488–491, 2009.
           [35]  A. Vu, Q. Yang, J. A. Farrell, and M. Barth, “Traffic sign detection, state estimation, and
                 identification using onboard sensors,” IEEE Conf. Intell. Transp. Syst. Proceedings, ITSC, no. Itsc,
                 pp. 875–880, 2013.
           [36]  R. T. S. Detection, “Real-Time Traffic Sign Detection and Recognition Method Based on Simplified
                 Gabor Wavelets,” 2018.
           [37]  J. Landa and D. Prochazka, “Automatic Road Inventory Using LiDAR,” Procedia Econ. Financ., vol.
                 12, no. March, pp. 363–370, 2014.