摘要
这份报纸论述为室内的 quadrotor 的全面控制,航行,本地化和印射的答案无人的天线车辆(UAV ) 系统。三个主要传感器在 quadrotor 站台上被使用,也就是,一个惯性的测量单位,一个向下看起来的照相机和扫描激光变化查找者。与这安装, UAV 能要用体力地估计它的自己的速度和位置,当没有碰撞,沿着一个房间的内部墙飞时。在一个以后完成飞行,与收集了数据历史性的 UAV 路径和室内的环境能很好被估计。系统的自治航行部分不要求任何遥远的感觉信息或离线的计算力量,当印射被做时离线。完全的飞行测试被执行了验证忠实和性能航行答案。
This paper presents a comprehensive control, navigation, localization and mapping solution for an indoor quadrotor unmanned aerial vehicle (UAV) system. Three main sensors are used onboard the quadrotor platform, namely an inertial measurement unit, a downward-looking camera and a scanning laser range finder. With this setup, the UAV is able to estimate its own velocity and position robustly, while flying along the internal walls of a room without collisions. After one complete flight, with the collected data the historic UAV path and the indoor environment can be well estimated. The autonomous navigation part of the system does not require any remote sensory information or off-line computational power, while the mapping is done off-line. Complete flight tests have been carried out to verify fidelity and performance the navigation solution.
出处
《自动化学报》
EI
CSCD
北大核心
2013年第11期1889-1900,共12页
Acta Automatica Sinica
关键词
导航系统
激光测距仪
室内环境
无人机
光流
视觉
惯性测量单元
飞行试验
Unmanned aerial vehicle (UAV) flight control, indoor navigation, simultaneous localization and mapping (SLAM),optical flow, laser FastSLAM