搜索资源列表
TWO-MOTOR-MPU6050
- 应用于两轴飞行器的测试,能测试多轴或者两轴飞行器DIY的两轴平衡控制,空间姿态解算-Used in aircraft testing two axes, to test the multi-axis or two-axis aircraft DIY balance control two axes, spatial attitude solution
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
MPU6050姿态解算
- STM32对MPU6050的四元数姿态解算,
MPU6050_DMP
- 基于stm32f107的mpu6050姿态解算源码。-Based stm32f107 of mpu6050 attitude count source solution.
MPU6050
- 本程序实现如下功能:开机后,先初始化MPU6050等外设,然后利用DMP库,初始化MPU6050及使能DMP,最后,在死循环里面不停读取:温度传感器、加速度传感器、陀螺仪、DMP姿态解算后的欧拉角等数据,通过串口上报给上位机(温度不上报),利用上位机软件(ANO_Tech匿名四轴上位机_V2.6.exe),可以实时显示MPU6050的传感器状态曲线,并显示3D姿态,可以通过KEY0按键开启/关闭数据上传功能。同时,在LCD模块上面显示温度和欧拉角等信息。DS0来指示程序正在运行。-This pr
08.-MPU6050
- 四元数姿态解算的程序,自己本科时候的毕业设计就是这个。-attitude caculate
MPU6050姿态解算STM32源码(DMP)
- STM32解算MPU6050工程文件,IIC读取6050数据,带DMP 。(STM32 calculation of MPU6050 engineering documents)
姿态解算资料
- MPU6050 中文教程,快速入门,带有圆点博士的例程。(MPU6050 Chinese tutorial, quick introduction.)
mpu6050
- MPU6050经过互补滤波和四元数转换为欧拉角 得到稳定的三轴角度(MPU6050 is converted to Euler angles by complementary filtering and four element number to obtain a stable three axis angle)
二轮自平衡小车
- 自平衡小车、MPU6050、姿态解算的算法C语言实现(Self balancing vehicle based on STM32)
mpu-6050资料
- mpu6050姿态解算,51 C语言例程,stm32例程(Mpu6050 attitude calculation, C language routines, STM32 routines)
MPU6050姿态解算STM32源码
- stm32码源实现mpu6050的三种姿态解算算法(Three algorithms of attitude calculation for mpu6050 based on STM32 code source)
实验32 MPU6050六轴传感器实验
- 使用STM32F4来驱动MPU6050,读取其原始数据,并利用其自带的DMP实现姿态解算,结合匿名四轴上位机软件和LCD显示(Using STM32F4 to drive MPU6050, read its original data, and use its own DMP to realize attitude calculation, combined with anonymous four axis PC software and LCD display)
MPU6050六轴传感器实验
- 实验器材: 探索者STM32F4开发板 实验目的: 学习MPU6050 六轴传感器(三轴加速度+三轴陀螺仪)的使用. 硬件资源: 1,DS0(连接在PF9) 2,串口1(波特率:115200,PA9/PA10连接在板载USB转串口芯片CH340上面) 3,ALIENTEK 2.8/3.5/4.3/7寸TFTLCD模块(通过FSMC驱动,FSMC_NE4接LCD片选/A6接RS) 4,KEY0按键(连接在PE4) 5,MPU6050传感器(连接在PB8(
sketch_apr29a
- 在Arduino IDE编译环境下,用四元数法进行姿态解算。四元数法具有计算量小的优点,相比欧拉角法,省去了姿态转换矩阵的计算。(In the Arduino IDE compiler environment, four element method is used to solve the pose problem. The four element method has the advantage of small computation. Compared with Euler angle
六轴姿态解算
- MPU6050传感器的六轴姿态解算算法代码(Six-Axis Attitude Solution Algorithmic Code for MPU6050 Sensor)
eMD-SmartMotion_ICM20948_1.0.5
- ICM20948实现的9轴DMP姿态解算,强于MPU6050的DMP6(The 9-axis DMP attitude resolution implemented by ICM20948 is better than that of MPU6050.)
MPU6050姿态解算STM32源码(卡尔曼滤波)
- MPU6050是我们常用的六轴空间位置处理芯片,次文档使用卡尔曼滤波的方式使数据更加的准确(MPU6050 is our commonly used six-axis spatial position processing chip. Kalman filter is used in sub-documents to make the data more accurate.)
MPU6050姿态解算STM32源码(DMP)
- 通过stm32 采集并通过DMP解算 MPU6050的角度,,通信采用IIC通信(The angle of the MPU6050 is solved by stm32 and calculated by DMP. The communication uses IIC communication.)
实验16:IMU姿态解算
- MPU6050陀螺仪与姿态解算实验,使用hawk2平台(MPU6050 IMU, use hawk 2 platform)