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trajection
- 用Matlab编写的轨迹发生器,输入初始的位置速度,姿态角,姿态变化等信息,模拟得到陀螺仪输出和加速度计的输出-Written with the Matlab path generator, enter the initial position, velocity, attitude, attitude changes and other information, the simulated gyro output and the output of the accelerometer
sins
- 该程序包括了飞行器轨迹计算、陀螺和加速度计的采样输入、以及由四元素解算出的飞行器姿态、位置、速度-The program includes the aircraft trajectory calculation, the sampling gyro and accelerometer input, and the solution calculated by the four elements of aircraft attitude, position, velocity
Strapdown
- 一、数据说明: 1:惯导系统为指北方位的捷连系统。初始经度为116.344695283度、纬度为39.975172度,高度h为30米。 初速度为v0=[0.000048637 0.000206947 0.007106781],飞行高度不变。 2:jlfw中为600秒的数据,陀螺仪和加速度计采样周期分别为为1/80秒和1/80秒。 3:初始姿态角为[0.120992605 0.010445947 91.637207](俯仰,横滚,航向,单位为度), jlfw中保存的为比力信
OMNeTbasedsatelliteposecontrolsimulation
- 针对三轴稳定卫星的姿态控制系统,在离散事件仿真平台OMNeT ++的 基础上,建立了一个以星敏感器和陀螺为敏感器,反作用飞轮为执行机构的闭环 控制仿真系统。采用双矢量定姿算法和P ID控制算法,对该卫星在对地定向模 式下的控制精度进行了仿真。仿真结果清晰地反映了星敏感器和反作用飞轮输 出延时对控制精度的影响。整个仿真系统符合面向对象和模块化的程序设计理 念,并实现了仿真程序的重用。-For the three-axis stabilized satellite attitu
coning-algorithm
- coning_atti:基于角速率输入的1~5子样等效转动矢量姿态仿真程序。 coning_atti_imu_error:等效转动矢量法仿真程序,包含1~4子样的各种等效转动矢量法,以读文件形式读取IMU输出参数,IMU参数由wnbb_error事先生成。 wnbb_error:用来产生带IMU误差的标准圆锥运动Gyro输出参数。 -coning_atti: Based on the input angular rate of 1 to 5 sub-sample rotat
navi_test
- 惯性导航的MATLAB算法,根据陀螺与加表的值计算姿态-MATLAB inertial navigation algorithm, based on gyro and attitude add value table
C_newtyle
- 航天常用姿态确定敏感器组合,太阳敏感器+速率陀螺+轨道罗盘,具体数据含义请参考章仁为的<《卫星姿态控制》>-Spacecraft attitude determination sensors commonly used in combination, sun sensor+ rate gyro compass+ tracks, the meaning of specific data please refer to Chapter Ren' s < " Satell
MS5607B
- 在飞行器姿态的最优估计中,进行陀螺与加速度计的数据融合-In the optimal estimation of spacecraft attitude, make the gyro and accelerometer data fusion
hods
- 陀螺_星敏感器的微小卫星姿态确定方法determination methods-_ Gyro micro satellite star sensor attitude determination methods
fourth-order-Runge-Kutta-method
- 关于ADIS16405的三轴陀螺姿态计算程序,用的是四阶龙格库塔法,单片机是STM32F103,对于ADIS16405的SPI采样是模拟方式,验证通过非常实用-About the ADIS16405 the axis gyro attitude calculation procedure, using a fourth order Runge-Kutta method,SCM is the STM32F103 analog mode, the sampling of for ADIS16405
mpu6050-Gyro-attitude-detection
- 通过IIC读取陀螺仪数据,在1602上显示,及用串口实时传送到电脑上位机。-Gyroscope data read by the IIC in the MCU, 1602, and transmitted in real time to a computer host computer using the serial.
Rongekutta
- 求解陀螺仪的姿态角,采用四元素的四阶龙格库塔法求解,含姿态初始四元素的确定。-Solving gyro attitude angle, using the four elements of the fourth-order Runge-Kutta method to solve, including the initial four elements determined attitude.
QuaternionRongekutta
- 求解陀螺仪的姿态角,采用四元素的四阶龙格库塔法求解。-Solving gyro attitude angle, using the four elements of the fourth-order Runge-Kutta method to solve.
pinghengchestc
- 平衡车,小车直立,算法控制,PID,陀螺仪姿态角控制-The balance of the car, the car upright, control algorithm, PID, the gyro attitude angle control
ANO-MR-F1
- 四轴飞行器程序,含陀螺仪姿态角显示及其控制,稳定易懂,运用PID算法,卡尔曼滤波-Four axis aircraft program, display containing gyro attitude and attitude control, stable and easy to understand, the use of PID algorithm, Calman filter
mpu6050-program
- 陀螺仪姿态解算 四元数 捷联矩阵的初始值计算初始四元数值 用毕卡法求解四元数更新矩阵,即捷联矩阵-Gyro attitude solution
MSP430_MPU6050
- TI公司MSP430系列单片机,MPU6050三轴陀螺仪姿态结算。包括卡尔曼滤波,四元数,平滑滤波。-MSP430 TI series microcontroller, MPU6050 three axis gyro attitude settlement. Including Calman filter, four yuan, smooth filter. MSP430 TI series microcontroller, MPU6050 three axis gyro attitude se
mpu6050
- 陀螺仪姿态解算- Gyro attitude calculation
119128645mpu6050-program
- 陀螺仪姿态解算,四元数,捷联矩阵的初始值计算初始四元数值(Gyro attitude algorithm, quaternion, the initial value of strapdown matrix numerical calculating the initial four yuan)
MiniBalanceV3.5【大功率版】平衡小车源码
- 本系统为两轮自平衡小车系统,由STM32单片机控制模块,陀螺仪姿态检测模块,电机驱动模块,电源供电模块等组成。陀螺仪MPU-6050模块负责采集平衡小车的角度信号以及角速度信号,并传给单片机;STM32单片机控制模块处理姿态角数据后,通过PID算法调节电机驱动电压,以控制两轮小车达到平衡;电机驱动模块负责接收单片机输出的控制信号,驱动两个直流电机的转速和方向,编码器将电机的速度和方向反馈给单片机控制器;电源模块负责各个模块的供电。通过系统的硬件软件设计、测试,证明了两轮自平衡小车能在±5 °范围