低成本大视场深度相机阵列系统

Large Field of View Array System Using Low Cost RGB-D Camerasin

  • 摘要: 在测距传感器不断轻量化、小型化以及室内外地图一体化导航应用的驱动下,三维(3D)室内移动测量成为当今研究和应用的热点,在室内建模、室内定位等新兴领域中的应用越来越广泛。3D室内移动测量系统通常配备激光扫描仪、全景相机、惯性测量单元(inertial measurement unit,IMU)系统和里程计等传感器,虽能实现3D室内点云数据的采集,但其距离传感器-激光扫描仪价格昂贵且便携性较差。彩色深度(RGB depth,RGB-D)相机为低成本3D室内移动测量系统构建提供了新的距离成像传感器选择,但主流型号RGB-D相机视场角小,继而导致数据采集效率远低于传统激光扫描仪,难以做到点云数据的完整覆盖与稳健采集,且易造成同时定位与制图(simultaneous localization and mapping,SLAM)过程中跟踪失败。针对以上问题,构建了一种低成本室内3D移动测量系统采集设备,通过组合多台消费级RGB-D相机构成大视场RGB-D相机阵列,提出了一种阵列RGB-D相机内外参数标定方法,并通过实验检验了设计系统采集的点云数据的精度。

     

    Abstract: Driven by the miniaturization, lightweight of positioning and remote sensing sensors as well as the urgent needs for fusing indoor and outdoor maps for next generation navigation, 3D indoor mapping from mobile scanning is a hot research and application topic. It has been applied in indoor modeling, indoor localization and other rising fields. In general, 3D indoor mobile mapping systems are equipped with sensors include laser scanner, panoramic camera, IMU (inertial measurement unit) system and odometry. The IMMS system can achieve indoor 3D indoor point cloud data acquisition, but the range sensor, laser scanner, is very costly and poor portability. RGB-D (RGB-depth) camera can offer an alternative way to capture data from indoor scene. However, the narrow field of view of RGB-D sensors cannot provide sufficient efficiency and wholeness of data acquisition, and may cause tracking failed or false match more frequently in SLAM system. This paper builts a low cost indoor 3D mobile mapping system prototype device, and proposes a calibration approach which integrates multiple consumer level RGB-D cameras to large field of view system to solve the deficiency mentioned above. The overall analysis shows the precision of this system meets the demanding of basic application of indoor data collection.

     

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