Aerospace Blockset™ provides Simulink® reference examples and blocks for modeling, simulating, and analyzing high-fidelity aircraft and spacecraft platforms. It includes vehicle dynamics, validated models of the flight environment, and blocks for pilot behavior, actuator dynamics, and propulsion. Built-in aerospace math operations and coordinate system and spatial transformations let you represent aircraft and spacecraft motion and orientation. To examine simulation results, you can connect 2D and 3D visualization blocks to your model.
Aerospace Blockset provides standard model architectures for building reusable vehicle platform models. These platform models can support flight and mission analysis; conceptual studies; detailed mission design; guidance, navigation, and control (GNC) algorithm development; software integration testing; and hardware-in-the-loop (HIL) testing for applications in autonomous flight, radar, and communications.
Learn how to run an aerospace model in the Simulink interface, examine the results, and modify the model settings and parameters.
Build models with your Aerospace Blockset software.
Access product examples.
Calculate indicated and true airspeed.
Model the airframe, environment, and pilot of the first aircraft, the Wright Flyer.
Model the airframe of a NASA HL-20 lifting body, a low-cost complement to the Space Shuttle orbiter.
Use projects to help organize large flight simulation modeling projects and make it easier to share projects with others.
Generate code for real-time execution in rapid prototyping and for hardware-in-the-loop systems using Simulink Coder™ software.
Use quaternion functions in the MATLAB Function block.
View signal data using any flight instrument blocks.