搜索资源列表
aircraft control system research
- aircraft control system research
UAV-Flight-Control-System
- :对某型无人机的飞行控制系统作了阐述,该飞行控制系统主要由飞行器分系统、测控与信息传输分系统、 任务设备分系统、地面支持分系统四大部分组成,飞行器分系统包括飞机机体、动力装置、导航与飞行控制、机上 电气设备及回收设备等;飞行控制技术的研究能使系统具有遥控、自主控制和应急返航能力.该无人机飞行控制系统已在某型无人机上得到应用,并已通过飞行试验验证,基本达到某型无人机的飞行控制要求.-: On a UAV' s flight control system were described,
airs.zip
- GMS aircraft instrument activex control里面有一个air.ocx 控件,有12种仪表功能。主要用于飞行器控制或相关游戏的设计。,air.ocx for visual basci or vc
Spacecraft_Control_Toolbox
- The Spacecraft Control Toolbox is composed of MATLAB m-fi les and mat-fi les, organized into a set of modules by subject. It is essentially a library of functions for analyzing spacecraft and missions. There is a substantial set of softwa
Model-aircraft-control-platform
- 模型飞机的检测,显示,控制的程序,里面有通讯。模型飞机测控平台-Model aircraft detection, display, control procedures, which have communication. Model aircraft control platform
Aircrgorithm
- 飞行器全包线控制律算法实现及仿真Aircraft full envelope control law and simulation algorithm-Aircraft full envelope control law and simulation algorithm
aircraft-control-system-research
- 吴树范的论文,飞机的总能量控制系统的研究-aircraft control system research
PID-neural-network-control
- 基于PID神经网络的三自由度飞行器模型控制研究-PID neural network based on three degrees of freedom control of aircraft model
Reconfigurable-flight-control
- 精密控制结构需要满足先进飞机的使命和对其引航的要求。这就要求飞行器的性能必须满足在低空飞行,低速飞行和大迎角攻击性飞行,全天候,昼夜工作的条件,并且新的控制技术应该成熟。这项工作提出了飞行控制时,状态变量和控制输入是由预先确定的限制范围内的系统控制系统的设计理念。在设计过程使用动态规划的概念。其基本思想涉及非二次泛函最小化。由于一系列限制因素,建议使用光滑函数。同时提出了该综合方法的优点。我们利用对F-18战斗机的纵向控制配置来说明该设计方法。-Indirect adaptive control
control
- 飞机控制的研究,用PID进行速度通道的控制,实现其编队飞行-Control of the aircraft, the speed with PID control channel to achieve the formation flying
Delphi-aircraft-control-platform
- 《Delphi串口通信工程开发实例导航》随书光盘 模型飞机测控平台-" Delphi serial communication engineering examples navigation" CD with the book model aircraft control platform
Toy-airplane-control-platform
- 遥控飞机模型控制系统平台,看过了,还不错,分享,作为大家的参考吧-Remote control model aircraft control system platform, read, and good to share, as our reference to it
ICCAVR-HM-remote-control
- 航模遥控器程序,使用iccavr编写 使用mage32单片机 实现舵机无线控制 和lcd显示航模操控菜单-The Aeromodelling remote control program, using the iccavr written use mage32 MCU the Servos wireless control and lcd display model aircraft control menu
four-rotor-aircraft-control---stm32
- 这是一个四旋翼飞行器的主控程序,基于STM32移植过来的-This is a four-rotor aircraft control procedures, based on the STM32 transplant
Aircraft-Control-Toolbox
- Matlab 飞行控制工具箱,可以进行飞行控制仿真-Matlab Aircraft Control Toolbox
STM32f405-four-axis-flight-control-
- STM32f405四轴飞控源代码内含MPU6050,MS5611,HMC5883L,GPS等驱动代码,还附有四轴飞行器的控制代码。- STM32f405 four-axis flight control source code contains MPU6050, MS5611, HMC5883L, GPS and other driver code, but also with four-axis aircraft control code.
aircraft-control-system
- 四旋翼飞行器飞行控制系统 simulink-aircraft control system
ccccc
- The preparation of the model aircraft control model
flight_control
- 基于matlab以及simulink,开发出飞行器控制的六自由度方程式,并且建立了飞机的执行机构和PID控制率的全仿真模型(Based on matlab and simulink, the six degree of freedom equation of aircraft control is developed, and the full simulation model of aircraft's actuator and PID control rate is established)
gaodu
- 四旋翼无人机是一种具有六个自由度和四个输入的欠驱动强耦合、外型新颖结构简单的飞行器。由于其具有制造成本地、重量轻、体积小、操作简单、使用方便、隐身性好、对作战环境要求低的特点,使其能准确、高效的执行各种军事或民用任务,因此四旋翼无人机具有一定的军事和民用价值。本课题针对四旋翼无人机的特点和飞行原理,对其动力学分析以及运动控制的研究,利用牛顿—欧拉方程,建立了四旋翼无人机的动力学模型,并针对该模型设计了PID四通道控制系统,且在Matlab/Simulink仿真平台上,利用PID控制系统对四旋翼无