文档介绍:渤海大学本科毕业论文(设计) 四旋翼无人机设计与制作 The Manufacture and D esign of Quad R otor U nmanned A erial V ehicle 学院(系): 专业: 学号: 学生姓名: 入学年度: 指导教师: 完成日期: 四旋翼无人机设计与制作- I- 摘要四旋翼无人机飞行器因为它的结构简单,而且控制起来也很方便,因此它成为了近几年来发展起来的热门产业。在这里本文详细的介绍了四旋翼飞行器的设计和制作的过程,其中包括了四旋翼无人机飞行器的飞行原理,硬件的介绍和选型,姿态参考算法的推导和实现,系统软件的具体实现。该四旋翼飞行器控制系统以 STM32f103ze t 单片机为核心,根据各个传感器的特点,采用不同的校正方法对各个传感器数据进行校正以及低通数字滤波处理,之后设计了互补滤波器对姿态进行最优估计,实现精确的姿态测量。最后结合 GPS 控制与姿态控制叠加进行 PID 控制四旋翼飞行器的四个电机,来达到实现各种飞行动作的目的。在制作四旋翼飞行器的过程中,进行了大量的调试并且与现有优秀算法做对比验证,最终设计出能够稳定飞行的四旋翼无人机飞行器。关键词:姿态传感器;四元数姿态解算; STM32 微型处理器;数据融合; PID 四旋翼无人机设计与制作- II- The Manufacture and D esign of Quad R otor U nmanned A erial V ehicle Abstract Quad- rotor unmanned aerial vehicle aircraft have a simple structure, and it is very easy to control, so it has e popular in recent years. Here article describes in detail the design and the process of making the four-rotor aircraft, including Quad- rotor UAV aircraft flight principle, hardware introduction and selection, implementation and realization of derivation attitude reference algorithm, the system software . The Quad- rotor aircraft control system STM32f103zet microcontroller core, and the advantages and disadvantages based on the accelerometer sensor, a gyro sensor and pass sensors using different correction methods for correcting various sensor data and low-pass digital filter processing, after plementary filter to estimate the optimal posture, precise attitude measurement. Finally, GPS control and attitude control PID control is superimposed four-rotor aircraft four motors to achieve a variety of flight maneuvers to achieve the purpose. Four-rotor aircraft in the production process, a lotof debugging and parison with the existing excellent algorithm validation, the final design to stabilize the Quad- rotor UAV flying aircraft. Key Words : MEMS Sensor; Quaternion; STM32 Processor; Data Fusion; PID 四旋翼无人机设计与制作- III - 目录摘要..............................................................................................................