Aerospace Toolbox提供工具和功能,用于分析航空航天车辆的导航和环境,并使用标准驾驶舱仪器或飞行模拟器可视化其航班。它允许您将数据概要(DATCOM)文件直接导入MATLAB®to represent vehicle aerodynamicsand incorporate validated environment models for atmosphere, gravity, wind, geoid height, and magnetic field. You can evaluate vehicle motion and orientation using built-in aerospace math operations and coordinate system and spatial transformations. You can visualize the vehicle in flight directly from MATLAB with standard cockpit instruments and using the pre-built FlightGear Flight Simulator interface.
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Coordinate System Transformations
使用坐标系函数来标准化数据描述飞行动态和运动,转换空间表示和坐标系的数据,并描述了三个运动体的行为。
飞行参数
使用函数来估计空气动力飞行参数eters, such as airspeed, incidence and sideslip angles, Mach number, and relative pressure, density, and temperature ratios.
四元数学
Use built-in quaternion functions to calculate their norm, modulus, natural logarithm, product, division, inverse, power, or exponential. Or you can interpolate between two quaternions using the linear, spherical-linear, or normalized-linear methods.
Atmosphere
Use validated environment models, including the COSPAR International Reference Atmosphere 1986, 1976 COESA, International Standard Atmosphere (ISA), Lapse Rate Atmosphere, and 2001 U.S. Naval Research Lab Exosphere, to represent the Earth’s atmosphere.
重力和磁场
Calculate gravity and magnetic fields using standard models. Functions let you implement the Earth Geopotential Models, World Magnetic Models, and the International Geomagnetic Reference Field, including EGM2008, WMM2020, and IGRF13. You can also calculate height and undulations based on geoid data downloadable via Add-On Explorer.
风
使用水平风函数来实现美国海军研究实验室水平风模型常规,并计算风的一个或多个地球物理数据的子午线和区域组成部分。
飞行仪器
Use standard cockpit flight instruments inMATLABto display navigation variables. Instruments include airspeed, climb rate, and exhaust gas temperature indicators, altimeter, artificial horizon, turn coordinator, and more.
Flight Simulator Interface
The animation object for FlightGear lets you visualize flight data and vehicle motion in a three-dimensional environment.
天体现象功能
与Chebyshev系数一起获得美国宇航局的喷气推进实验室, you can use MATLAB to compute the position and velocity of solar system bodies relative to a specified center object for a given Julian date, as well as Earth nutation and Moon libration.
数字Datom数据
从静态和动态分析导入空气动力学系数,并将其转换为MATLAB作为包含有关DATCOM输出文件信息的结构的单元格阵列。
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功能
Implement the 13th Generation of the International Geomagnetic Reference Field (IGRF-13) in MATLAB
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功能
Implement the World Magnetic Model 2020 in MATLAB
App Designer中的飞行仪器
Create user interfaces in MATLAB for aerospace-specific applications
超音速空速纠正
转换等效,校准或真正的空速
Polar Motion
根据IAU2000A计算旋转轴的运动相对于地壳的运动
Celestial Intermediate Pole Location
根据IAU2000A计算对天体中间极点位置的调整
See therelease notes有关这些功能的详细信息和相应的功能。
Researchers Test Control Algorithms for NASA SPHERES Satellites with a MATLAB Based Simulator
对于NASA,使用MATLAB和相关工具箱的开发卫星轨迹优化和控制算法大约是与需要从头开始编码的语言的语言的两倍。