独立驱动的仿鸟扑翼飞行机器人的系统设计与实验  被引量：12

作　　者：贺威[1] 刘上平 黄海丰 付强[1] 孙长银[2] HE Wei;LIU Shang-ping;HUANG Hai-feng;FU Qiang;SUN Chang-yin(Institute of Artificial Intelligence,School of Automation and Electrical Engineering,University of Science and Technology Beijing,Beijing 100083,China;School of Automation,Southeast University,Nanjing Jiangsu 211189,China)

机构地区：[1]北京科技大学人工智能研究院,自动化学院,北京100083 [2]东南大学自动化学院,江苏南京211189

出　　处：《控制理论与应用》2022年第1期12-22,共11页Control Theory & Applications

基　　金：国家自然科学基金项目(61933001,61921004,62061160371);北京市自然科学基金项目(JQ20026)资助.

摘　　要：扑翼飞行机器人模仿自然界中的飞行生物,通过扑动翅膀拍打空气驱动飞行.它们机动性好、飞行效率高、噪音小,在某些应用场景比传统的固定翼飞机和旋翼飞机更有优势.目前扑翼飞行机器人的研究大多集中在机理研究和理论的建模与控制,鲜有实现室外的自主飞行,难以应对复杂的实际应用需求.在本文中,设计了一种独立驱动的仿鸟扑翼飞行机器人USTBird,通过两个舵机独立驱动左右翅膀可实现无可控尾翼的机动飞行.通过搭载自主设计的微型飞控板、GPS以及惯性导航模块,采用PD控制实现了扑翼飞行机器人的室外自主巡航飞行.设计了针对扑翼机器人的轻型两自由云台,很大程度上消除了机翼扑动飞行引起的图像抖动问题.针对机身振动和GPS测量误差带来的位置误差,采用无迹卡尔曼滤波算法对GPS采集的位置信息进行估计,提升了位置估计精度.设计了面向扑翼飞行机器人的地面站系统.考虑到扑翼飞行机器人存在的转向滞后问题,对偏航角设计双闭环分段PD控制器,最终实现了在外圆半径40 m和内圆半径10 m的圆环内的自主巡航任务.Bionic flapping-wing robots imitate flying creatures in nature which fly by flapping their wings against the air.With good maneuverability,high flight efficiency,and low noise,flapping-wing robots perform better than traditional fixed-wing aircraft and rotorcraft in some application scenarios.At present,most researches on flapping-wing robots focus on mechanism analysis,theoretical modeling,and control design.Few flapping-wing robots have realized the outdoor autonomous flight which makes it difficult to cope with the complex practical application requirements.In this paper,an independently driven bird-like flapping-wing robot named USTBird is designed.The left and right wings are independently driven by two servos to achieve maneuverable flight without a controllable tail.It is equipped with an independently designed flight control board,a GPS module and an inertial navigation module.We adopt PD controller to realize the outdoor autonomous cruising flight of the USTBird.A lightweight two degrees of freedom pan-tilt for the USTBird is designed,which eliminates most of the image oscillating.Aiming at decreasing the position error caused by the vibration of the fuselage and the inaccurate GPS measurement,we use the unscented Kalman filter to estimate the position.A ground station system for the USTBird is designed.Considering the steering lag problem of the USTBird,a double closed-loop segmented PD controller is designed for the yaw angle,and the autonomous cruise mission in the ring with an outer circle radius of 40 m and an inner circle radius of 10 m is finally achieved.

关 键 词：仿生扑翼飞行机器人 独立驱动 自主巡航 系统设计 仿生学 

分 类 号：TP242[自动化与计算机技术—检测技术与自动化装置] V276[自动化与计算机技术—控制科学与工程]