[1] |
吴淑芳, 刘勃洋, 雷琪 ,等. 基于三维重建技术的坡面细沟侵蚀演变过程研究[J]. 农业工程学报, 2019,35(9): 114-120.
|
|
WU S F , LIU B Y , LEI Q ,et al. Research on the evolution process of slope rill erosion based on 3D reconstruction technology[J]. Transactions of the Chinese Society of Agricultural Engineering, 2019,35(9): 114-120.
|
[2] |
PORPIGLIA F , CHECCUCCI E , AMPARORE D ,et al. Augmented-reality robot-assisted radical prostatectomy using hyper-accuracy three-dimensional reconstruction (HA3D?) technology:a radiological and pathological study[J]. BJU International, 2019,123(5): 834-845.
|
[3] |
ZHOU Y , ZHANG L , XING C ,et al. Target three-dimensional reconstruction from the multi-view radar image sequence[J]. IEEE Access, 2019(7): 36722-36735.
|
[4] |
ZHOU Y Q , LIU L , WANG L ,et al. Service aware 6G:an intelligent and open network based on convergence of communication,computing and caching[J]. Digital Communications and Networks, 2020,6(3): 253-260.
|
[5] |
ZHOU Y Q , TIAN L , LIU L ,et al. Fog computing enabled future mobile communication networks:a convergence of communication and computing[J]. IEEE Communications Magazine, 2019,57(5): 20-27.
|
[6] |
KARG M , PROKOFYEVA O . Method for three- dimensional graphic reconstruction of a vehicle:LUS20200026905,744[P]. 2020.
|
[7] |
陈佳舟, 彭鹤年, 吴宁 ,等. 文物三维重建误差点的自动剔除方法[J]. 小型微型计算机系统, 2019,40(9): 71-77.
|
|
CHEN J Z , PENG H N , WU N ,et al. Automatic removal of error points in the 3D reconstruction of cultural relics[J]. Small Microcomputer System, 2019,40(9): 71-77.
|
[8] |
RAO Y B , FAN B J , WANG Q F ,et al. Extreme feature regions detection and accurate quality assessment for point-cloud 3D reconstruction[J]. IEEE Access, 2019(7): 37757-37769.
|
[9] |
LAN Z Q , YEW Z J , LEE G H . Robust point cloud based reconstruction of large-scale outdoor scenes[C]// Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition. Piacataway:IEEE Press, 2019: 9690-9698.
|
[10] |
徐斌, 行鸿彦, 解建华 ,等. 基于三维重建的大腿假肢接受腔定制研究[J]. 电子测量与仪器学报, 2018(9): 23-28.
|
|
XU B , XING H Y , XIE J H ,et al. Customization of the thigh prosthetic cavity based on 3D reconstruction[J]. Journal of Electronic Measurement and Instrument, 2018(9): 23-28.
|
[11] |
张一, 姜挺, 江刚武 ,等. 特征法视觉 SLAM 逆深度滤波的三维重建[J]. 测绘学报, 2019,48(6): 54-61.
|
|
ZHANG Y , JIANG T , JIANG G W ,et al. Three-dimensional reconstruction of feature-based visual SLAM inverse depth filtering[J]. Journal of Surveying and Mapping, 2019,48(6): 54-61.
|
[12] |
丁忠军, 赵子毅, 张春堂 ,等. 载人潜水器的深海地貌线结构光三维重建[J]. 红外与激光工程, 2019,48(5): 77-84.
|
|
DING Z J , ZHAO Z Y , ZHANG C T ,et al. Structured light three-dimensional reconstruction of deep sea landforms for manned submersibles[J]. Infrared and Laser Engineering, 2019,48(5): 77-84.
|
[13] |
SEDAGHAT N , ZOLFAGHARI M , AMIR E ,et al. Orientation-boosted voxel nets for 3D object recognition[J].arXiv preprint:1604.03351,2016. arXiv preprint:1604.03351, 2016.
|
[14] |
李斌, 张建平, 刘学军 . 基于Hadoop的不确定异常时间序列检测[J]. 传感技术学报, 2015(7): 124-130.
|
|
LI B , ZHANG J P , LIU X J . Uncertain anomalous time series detection based on Hadoop[J]. Journal of Sensor Technology, 2015(7): 124-130.
|
[15] |
李翔宇, 许力, 李瑞兴 . 基于CM-DTW算法的智能手机动态手势身份认证[J]. 计算机系统应用, 2019(8): 87-96.
|
|
LI X Y , XU L , LI R X . Smart phone dynamic gesture identity authentication based on CM-DTW algorithm[J]. Computer Systems & Applications, 2019(8): 87-96.
|
[16] |
DING Q , HE J . The detection of non-cooperative targets in space by using 3D point cloud[C]// Proceedings of 2019 5th International Conference on Control,Automation and Robotics (ICCAR). Piacataway:IEEE Press, 2019: 545-549.
|
[17] |
CHEN X W , ZHU Y L , WU T ,et al. The point cloud registration technology based on SAC-IA and improved ICP[J]. Journal of Xi'an Polytechnic University, 2017,31(3): 395-401.
|
[18] |
LIU T , WANG N , FU Q ,et al. Research on 3D reconstruction method based on laser rotation scanning[C]// Proceedings of 2019 IEEE International Conference on Mechatronics and Automation (ICMA). Piacataway:IEEE Press, 2019: 1600-1604.
|
[19] |
SUN M H , YANG S W , LIU H Z . Scale-aware camera localization in 3D LiDAR maps with a monocular visual odometry[J]. Computer Animation and Virtual Worlds, 2019,30(3-4): e1879.
|