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Acta Photonica Sinica, Volume. 50, Issue 1, 188(2021)

Registration of Laser Point Cloud and Optical Image in Urban Area Based on Semantic Segmentation

Ying ZHU1 and Ming ZHAO1,2
Author Affiliations
  • 1College of Information Engineering, Shanghai Maritime University, Shanghai20306,China
  • 2Key Laboratory of Intelligent Infrared Perception, Chinese Academy of Sciences, Shanghai00083, China
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    [2] Na LI. Registration of airborne LiDAR point cloud and aerial imagery for desert areas, 30(2015).

    [3] Yuanxin YE, Siyuan HAO, Yungang CAO. Automatic registration of optical and SAR image using geometric structural properties. Journal of Infrared and Millimeter Waves, 36, 720-726(2017).

    [4] Jing ZHANG, Wanshou JIANG. Registration of laser point cloud and optical image: current situation and trend. Journal of GeoInformation Science, 19, 528-539(2017).

    [5] Yongjun ZHANG, Xiaodong XIONG, Xiang SHEN. Automatic registration of urban aerial imagery with airborne LiDAR data. Journal of Remote Sensing, 16, 579-595(2012).

    [6] N LI, X HUANG, F ZHANG. Registration of aerial imagery and lidar data in desert areas using the centroids of bushes as control information. Photogrammetric Engineering & Remote Sensing, 79, 743-752(2013).

    [7] Liang ZHANG, Hongchao MA, Guang GAO. Automatic registration of urban aerial images and airborne lidar point clouds based on point and line similarity invariance. Acta Geodaetica et Cartographica Sinica, 43, 372-379(2014).

    [8] Peipei HE, Youchuan WAN, Wei YANG. auto-registration of aerial imagery with airborne LiDAR data based on structure feature. Acta Optica Sinica, 35, 360-368(2015).

    [9] Zhongyang ZHAO, Yinglei CHENG, Manyun HE. LIDAR point cloud and aerial image registration based on surface feature and SIFT feature. Journal of Air Force Engineering University (Natural Science Edition), 19, 69-74(2018).

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    [11] T S KWAK, Y I KIM, K Y YU. Registration of aerial imagery and aerial LiDAR data using centroids of planer of surfaces as control information. Journal of Civil Engineering, 10, 365-370(2006).

    [12] O RONNEBERGER, P FISCHER, T BROX. 20](5). https://arxiv.org/abs/1505.04597

    [13] S SATOSHI, A KEIICHI. Topological structural analysis of digitized binary images by border following. Computer Vision Graphics & Image Processing, 30, 32-46(1985).

    [14] J SKLANSKY. Finding the convex hull of a simple polygon. Pattern Recognition Letters, 1, 79-83(1982).

    [15] The Vaihingen data set was provided by the German Society for Photogrammetry, Remote Sensing and Geoinformation. :. http://www.ifp.unistuttgart.de/dgpf/DKEP-Allg.html

    [16] Mingshan WANG. Research on registration method of airborne lidar DSM depth image and aerial image, 30-31(2013).

    [17] J HOVAD, J KOMARKOVA, P SEDLAK. Slope based grid creation using interpolation of LIDAR data sets, 227-232(2013).

    [18] Wei WU, Jiancheng LUO, Zhanfeng SHEN. Building extraction from high resolution remote sensing images based on spectral and shape features. Geomatics and Information Science of Wuhan University, 37, 800-805(2012).

    [19] J WANG, X YANG, X QIN. An efficient approach for automatic rectangular building extraction from very high resolution optical satellite imagery. IEEE Geoence & Remote Sensing Letters, 12, 487-491(2014).

    [20] Jingzhong XU, Yuan KOU, Fang YUAN. Automatic registration of airborne lidar data and aerial images based on structural features. Infrared and Laser Engineering, 42, 3502-3508(2013).

    [21] Qinghong SHENG, Qi WANG, Xinyue ZHANG. Registration of urban aerial image and LiDAR basedon line vectors. Applied Science, 7, 965(2017).

    [22] Bisheng YANG, Chi CHEN. Automatic registration of UAV-borne sequent images and LiDAR data. Isprs Journal of Photogrammetry & Remote Sensing, 101, 262-274(2015).

    [23] A WONG, J ORCHARD. Efficient FFT-accelerated approach to invariant optical-LIDAR registration. IEEE Transactions on Geoence & Remote Sensing, 46, 3917-3925(2008).

    [24] S PENG, H MA, L ZHANG. Automatic registration of optical images with airborne LiDAR point cloud in urban scenes based on line-point similarity invariant and extended collinearity equations. Sensors, 19, 1086(2019).

    [25] D DETONE, T MALISIEWICZ, A RABINOVICH. Superpoint: self-supervised interest point detection and description [DB/OL]. https://arxiv.org/abs/1712.07629

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    Ying ZHU, Ming ZHAO. Registration of Laser Point Cloud and Optical Image in Urban Area Based on Semantic Segmentation[J]. Acta Photonica Sinica, 2021, 50(1): 188

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    Paper Information

    Category: Image Processing

    Received: --

    Accepted: --

    Published Online: Mar. 12, 2021

    The Author Email:

    DOI:10.3788/gzxb20215001.0110002

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology