Videos

Build, run, and test real-time applications with Simulink Real-Time™.
Use Speedgoat real-time target machines and I/O modules as dedicated target computer hardware for Simulink Real-Time™. Video produced by Speedgoat.
Create and use instrument panels as user interfaces for real-time applications in Simulink Real-Time™ Explorer.
Use Simulink Real-Time™ Explorer to manage real-time applications including loading and reloading the applications onto the connected target computer.
Use MathWorks tools for developing and testing Advanced Driver Assist Systems (ADAS) algorithms in real time.
Extend your model’s capabilities with FlexRay driver blocks using Simulink Real-Time™, and create, build, run, and test your model.
Automate test execution to enhance testing in Simulink Real-Time™ using Simulink Report Generator™.
Use multiple cores of a Speedgoat target computer to run high-fidelity plant models with Simulink Real-Time™.
Run a typical hardware-in-the loop simulation for industrial automation applications. An industrial programmable logic controller runs the control algorithm that is connected to a plant simulation, which is a Simulink Real-Time™ application.
Use UDP support from Simulink Real-Time™ to communicate between target computers in real-time.
Use raw Ethernet support from Simulink Real-Time™ to communicate between target computers in real-time.
Set up and control a robot arm in real-time with xPC Target™.
Use Simulink ® to model a position control system for radar tracking. The controller is separated from the plant and is discretized.
Engineers design and model the controller, run real-time simulations, and deploy a production system.
Engineers model guidance, navigation, and control algorithms, perform real-time simulations, and generate production flight code.
Students design control algorithms, verify them, and perform hardware-in-the-loop testing with a real vehicle.
Students develop control algorithms for a hybrid electric engine, implement them in a vehicle, and test fuel efficiency on the track.
Students gain hands-on experience with industry-standard software, enabling them to land jobs after graduation and contribute immediately.
Convert a hydraulic lift model to C code and simulate in a hardware-in-the-loop configuration. Simscape™ parameters are tuned on the real-time target.
Configure multiple, independent solvers to enable real-time simulation. The model of a hydraulic aileron actuation system is simulated on a real-time target.
Convert a backhoe model to C code and simulate in a hardware-in-the-loop configuration. Simscape™ parameters are tuned on the real-time target.
Configure multiple, independent solvers to enable real-time simulation. The model of a hydromechanical pitch control system is simulated on a real-time target.
Configure multiple, independent solvers to enable real-time simulation. The model of a hybrid-electric vehicle (HEV) is simulated on a real-time target.
Configure multiple, independent solvers to enable real-time simulation. The model of a pneumatic actuator is simulated on a real-time target.
Configure Simscape™ local solvers on your physical networks to enable real-time simulation. The computations per time step are minimized while maintaining accuracy.
Use HIL testing instead of hardware prototypes to test control algorithms. Convert physical model to C code and simulate in real time on controller hardware.

Learn About Protocol Support Offered in Simulink Real-Time