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.
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