搜索资源列表
aircraft-source-IAR-430
- 四旋翼飞行器代码,方便新手快速学习与掌握,四元数融合,飞行PID控制 ,运用的编译环境:IAR for MSP439,控制所用的MCU:MSP430f5529 传感器:mpu6050- Four rotor aircraft, code, have fast learning and facilitate novice, four yuan per fusion, flight PID control, use the compiler environment: IAR for MSP439
dynamic-model-of-fixed-aircraft
- 基于simulink环境的areospace模块的固定翼飞行器动力学建模与控制-Dynamic modeling and control of fixed-wing aircraft based on simulink environment areospace module
aircraft-dynamics
- 计算飞行器升力系数,并绘制飞行器升力系数曲线。-calculate dynamic force for aircraft
four-rotor-aircraft-flight
- 基于STM32F407的四旋翼飞行器的C语言源码和上位机软件,其中加速度计陀螺选择MPU6050,气压计选择MS5611,电子罗盘选择AK8975。-The C source code and the upper computer software of the four-rotor aircraft flight based on STM32F407, which using MPU6050 as accelerometer and gyroscope, using MS5611 as ba
remote-control-model-aircraft
- 基于51单片机航模遥控,LCD5110显示,NRF24L01发射-51 microcontroller-based remote control model aircraft, LCD5110 display, NRF24L01 launch
The-aircraft-simulation-parameters
- 建立飞行器在大气模型下的六个参数(经度变化、纬度变化、距离地心距离、速度、航迹倾斜角和航迹方位角)在180秒内的修正变化情况-Build six The aircraft under atmospheric model parameters (longitude change, latitude, distance geocentric distance, speed, track and track azimuth angle of inclination) correction within
aircraft-takeoff-weight-calculation
- 使用VB估算方法,迭代求解各种常规类型飞机的起飞总重量,-Use VB estimation method, iterative solver various conventional type of aircraft take-off weight,
Four-axis-aircraft-source
- 基于STM32和MPU6050的四轴飞行器-Based on the STM32 and MPU6050 four axis aircraft
Four-Axes-Aircraft-Schematic-
- STM32f103的四轴飞行器原理图,用于四轴飞行器的设计和学习。-It is the schematic of four axes aircraft.
The-four-rotor-aircraft-based-STM32
- 基于STM32的四旋翼飞行器 以STM32为主控制器-The four-rotor aircraft based STM32 STM32-based controller to
STM32-based-four-axis-aircraft
- 基于STM32的四轴飞行器,精准的PID调节,抗干扰性更强-STM32-based four-axis aircraft, precise PID regulation, stronger anti-interference
Introduction-to-Aircraft-Stability-and-Control_Ca
- Great overview for stability design of aircraft [automatic control books]
Aircraft-type-recognition
- 运用傅里叶算子识别不同型号飞机图像。压缩文件包含识别程序源码,训练图片以及待识别图片。-Using the Fu Liye operator to identify different types of aircraft image. The compressed file contains the source identification procedures, training images and to identify pictures.
Micro-six-axis-aircraft
- 微型六轴飞行器源码,有利于多轴飞行器爱好者的学习和开发-Micro six-axis aircraft source, in favor of multi-axis aircraft lovers of learning and development
Dynamic-Modeling-four-rotor-aircraft
- 对四旋翼飞行器进行了动力学分析,并在动力学建模的基础上设计了PID控制器,通过simulink仿真。-Four-rotor aircraft for the kinetic analysis and modeling on the basis of kinetic design PID controller, through the simulink simulation.
four-rotor-aircraft
- 关于飞行器的研究,建立四旋翼飞行器基于刚体的初步力学模型,及参数测量,研究多旋翼飞行器的空气动力学特性。基于模型的控制算法。-Research on the aircraft, the establishment of four-rotor aircraft based on preliminary mechanical model of a rigid body, and parameter measurement, Multi-rotor aerodynamics. Model-based
AIRCRAFT
- 建立了四旋翼飞行器悬停姿态动力学模型,并进行了仿真分析,在开环控制的前提下分析了结构增稳和橡筋阻尼方法对飞行器平台姿态定性的影响,并提出了一种开环控制下实现稳定悬停的策略。-The establishment of a four-rotor aircraft hovering attitude dynamics model and simulation analysis, under the premise of open-loop control analyzes the impact of
Intercept-aircraft
- 可以在一个防御圈内拦截不合法的飞机经过,最终计算出发现飞机的位置以及击落飞机的位置-You can intercept illegal aircraft through in a defensive circle, and ultimately calculate the position of the aircraft and found the location of the downed aircraft
Unmanned-aircraft-catapult-take-off
- Unmanned aircraft catapult take-off _ Qin Zhenchao hydraulic system design and research
aircraft
- 基于 APM 开源飞控平台的四轴旋翼飞行器 文章介绍了在基于 atmega2560 的 apm 开源飞控平台上开发的一款面向个人的四轴旋翼飞行器;利用无刷电机做 为动力输出,通过apm2.6 开源飞控驾驶仪,使得旋翼飞行器可以以多种飞行模式稳定的并安全的执行飞行任务;利用加 密的 2.4G 通信使飞行器最远可以达到 450m 的理论飞行器距离。同时该平台预留有丰富外接接口,为后续功能的开发 提供了极大的便利。 -Based on the article introduced