搜索资源列表
FSAE
- 斯图加特大学Fsae珍贵视频,详细分析了侧向力变化及其他操纵稳定性性能,能看到侧倾,俯仰,横摆三模态下的解耦控制-Stuttgart University Fsae precious video, a detailed analysis of changes in lateral force, and other manipulation of the stability of performance, can roll, pitch, yaw under three modal decoupl
Wind_Turbine_Model
- 详细的双馈发电机模型,包括变桨系统、偏航系统、控制系统、齿轮箱等。-Detailed model of doubly-fed generator, including the pitch system, yaw system, control system, gear boxes.
Modeling-and-Control-of-a-Bergey-Type-furling-Win
- • To study the overspeed-protection furling mechanism of the Bergey Wind Turbine and – Model the furling mechanism (for real-time) – Effect of aerodynamics, generator, electrical side • Build a simulation package • To design
kk
- 直接横摆力矩控制车辆稳定性研究概述,很好的论文-Direct yaw moment control Vehicle Stability Studies
TERRAIN3DTEST
- 飞行动力学模拟系统 模拟一架飞机在一个地形上空飞行的全过程,用户可以使用键盘对飞机进行控制,如飞机的俯仰、偏航、加速等操作,观看飞机飞行的变化。-Flight dynamics simulation system Simulation of an aircraft in a terrain flying over the whole process, the user can use the keyboard to control the aircraft, such as pitch,
double_fY
- DFIG and yaw control system for implementig
c
- 控制平摆,运用51单片机,通过模数转换器获得角位移传感器的偏移量,从而来控制步进电机转动的角度-Yaw control
yaw
- 用于计算船舶动力定位艏向角调整中,在风力作用下推进器推力的大小-DP control for yaw
PMSG_detailed
- Detail working of PMSG with in pitch and yaw control
solar_systemsource
- Opengl编程,使用GLUT实现window, Camera使用4个vector实现. WASD和IJKL实现方向控制;QE可控制偏航;+,-可控制速度;M可以增加月球;O可控制轨道线开关;所有星体表面带有texture。更多细节请阅读源程序。-Opengl programming, using GLUT achieve window, Camera using four vector realize WASD and IJKL achieve directional control QE
8-dof-vehicle-dynamic
- 8个自由度汽车建模,适合复杂的角速度偏移率控制-8 dof vehicle modelling to control yaw rate
yaw-control
- 给水面船施加横向力 纵向力 和回转力矩后仿真水面船的三自由度运动状态-Simulink of marine ship with force in surge sway and yaw
fly-control-stm32-program
- 一个四轴飞控项目的程序,编译,下载,运行,连接飞控串口和FTDI串口,串口波特率500K,上位机打开高级收码,在上位机飞控状态标签可以看到变化的传感器数据,3D显示可以跟随roll和pitch的变化而变化,因为没有写yaw的上传,所以yaw保持零度...此时打开飞控波形按钮,打开波形显示页面,并打开相应波形开关,1到3为加速度,4到6为陀螺仪,10和11为roll和pitch,就可以看到变化的波形.-fly control stm32 program
chapter5attitude
- 卫星姿态是指卫星星体在轨道上运行所处的空间指向状态。将直角坐标系的原点置于星体上,指向地面的Z轴反映偏航方向,Y轴反映俯仰方向,X轴反映滚动方向。星体在高空中沿局部地球铅垂方向和轨道矢量方向运行,不时地产生对三轴的偏移。姿态控制是通过姿态控制分系统(ACS)来实现,使用地平扫描仪可感应俯仰和滚动轴的姿态误差,使用速度陀螺仪和罗盘可感应偏航轴的姿态误差。(Satellite attitude refers to the spatial orientation of a satellite in o
10.1080@00423114.2016.1256489
- An integrated vehicle dynamics control (IVDC) algorithm, developed for improving vehicle handling and stability under critical lateral motions, is discussed in this paper. The IVDC system utilises integral and nonsingular fast terminal sliding mode (
control
- the yaw motion of the tanker is described in state space by the equation... find a state feedback control law of the form