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항공우주
안전 필수 시스템과 임무 필수 시스템의 설계, 시뮬레이션, 테스트 및 배포
항공우주 및 국방 분야의 엔지니어링 조직은 MATLAB® 및 Simulink®를 사용하여 복잡한 항공우주 시스템을 개발, 분석 및 인증할 수 있습니다. MathWorks® 항공우주 제품을 사용하여 다음을 수행할 수 있습니다.
비행체와 우주선을 모델링하고 시뮬레이션합니다.
환경 모델을 적용합니다.
유도항법제어 시스템을 설계합니다.
안정성 분석, 비행 분석, 임무 분석을 수행합니다.
소프트웨어 프로젝트가 산업 표준을 준수하는지 검증합니다.
도움말 항목
비행체 및 우주선의 모델링 및 시뮬레이션
- Get Started with Fixed-Wing Aircraft (Aerospace Toolbox)
Create and use a fixed-wing aircraft in MATLAB. - Import from USAF Digital DATCOM Files (Aerospace Toolbox)
Bring United States Air Force (USAF) Digital DATCOM files into the MATLAB environment. - Satellite Constellation Access to Ground Station (Aerospace Toolbox)
Set up access analysis between a ground station and conical sensors onboard a constellation of satellites. - Create Aerospace Models (Aerospace Blockset)
Build models with your Aerospace Blockset™ software. - Model Spacecraft (Aerospace Blockset)
Model, simulate, and visualize the motion and dynamics of spacecraft using spacecraft dynamics, orbit propagator, and CubeSat blocks.
환경 모델
- Marine Navigation Using Planetary Ephemerides (Aerospace Toolbox)
Perform celestial navigation of a marine vessel by using the planetary ephemerides. - Visualize World Magnetic Model Contours for 2020 Epoch (Aerospace Toolbox)
Visualize contour plots of calculated values for the Earth magnetic field using World Magnetic Model 2020 (WMM2020). - Gravity Models with Precessing Reference Frame (Aerospace Blockset)
Implement various gravity models with precessing reference frames using Aerospace Blockset blocks.
유도항법제어 및 안정성 분석
- Flight Control Analysis Tools (Aerospace Toolbox)
Analyze the motion and dynamics of aerospace vehicles with short-period requirements, boundary line, and altitude contour plots. - Analyze State-Space Model for Linear Control and Static Stability Analysis (Aerospace Toolbox)
Convert a fixed-wing aircraft to a linear time invariant (LTI) state-space model for linear analysis. - Analyze Dynamic Response and Flying Qualities of Aerospace Vehicles (Aerospace Blockset)
Analyze dynamic response and flying qualities of aerospace vehicles using flight control analysis tools. - Transition from Low- to High-Fidelity UAV Models in Three Stages (UAV Toolbox)
Evolve your UAV plant model continuously to stay in sync with the latest information available.
비행 분석 및 임무 분석
- Estimate G Forces for Flight Data (Aerospace Toolbox)
Load flight data and estimate G forces during the flight. - Mission Analysis with the Orbit Propagator Block (Aerospace Blockset)
Compute and visualize line-of-sight access intervals between satellites and a ground station. - Analyze UAV Autopilot Flight Log Using Flight Log Analyzer (UAV Toolbox)
Import flight log data, create figures and plots, export signals, and use custom signal mapping in the Flight Log Analyzer app.
비행 시각화
- Visualization Tools (Aerospace Toolbox)
View vehicle dynamics in 3-D flight paths and trajectories, create Apps with flight instruments, and transform coordinate axes. - Visualization Tools (Aerospace Blockset)
View flight paths with MATLAB graphics-based 3DoF and 6DoF animation blocks, scenarios using Unreal Engine®, or flight simulator animation; input data to models; display measurements through standard cockpit instruments. - Visualize and Play Back MAVLink Flight Log (UAV Toolbox)
Load a telemetry log (TLOG) containing MAVLink packets into MATLAB®.
시스템 인증
- Tool Qualification Process Overview (DO Qualification Kit)
Process workflow for qualifying the verification tool.