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explore real-time implementation examples that apply to simulink® real-time™ and other products

for implementations in many real-time simulation and testing areas, pairing simulink real-time with one or more additional products can ease implementation development. this category provides links to examples that demonstrate implementations for various market segments. for more examples that use speedgoat target machines, see . to explore the wide range of product capabilities and find the solution that is right for your application or industry, see these solution areas:

  • control systems — for open-loop or feedback control systems, you can develop a real-time application that helps you test and simulate your system. for more information about control systems, see .

  • robotics and autonomous — from perception to motion, real-time applications can be part of your robotics to design, simulate, and verify every aspect of your autonomous systems. for more information, see .

  • image processing and computer vision — real-time application can implement image processing and computer vision systems that respond to image and video data, apply algorithms, and help you explore implementation tradeoffs. for more information, see .

  • power electronics — for control of igbts, power mosfets, and other solid-state power electronics, you can design a real-time digital controller with simulation that helps ensure stability, improves power quality, optimizes dynamic performance, and handles fault conditions. for more information, see .

  • signal processing — from analyzing signals and exploring algorithms to evaluating design implementation tradeoffs, a real-time signal processing systems eases your simulation and test processes. for more information, see .

  • fpga solutions — real-time simulation and testing helps you generate processor-optimized c/c code for your target embedded processors and verify your algorithm running in an hdl simulator or on an fpga or soc device. for more information, see .

control systems

(simulink test)

perform real-time testing on a target computer and verify system behavior against requirements.

robotics and autonomous

(automated driving toolbox)

deploy and test highway lane following controller in real-time.

configure and update an app designer instrument panel app for a simulink real-time car transmission application.

image processing and computer vision

(fixed-point designer)

this example shows how to acquire real-time images from a gige vision® camera or webcam, process the images using fixed-point blob analysis, and determine world coordinates to score a laser pistol target.

power electronics

run real-time simulation of permanent magnet synchronous motor

simulate a permanent magnet synchronous motor (pmsm) by using hdl coder and the speedgoat i/o blockset.

(hdl coder)

deploy buck converter modeled in simscape to speedgoat io modules using hdl workflow script.

hardware-in-the-loop implementation of simscape model on speedgoat fpga i/o modules (hdl coder)

this example shows how to synthesize and generate fpga bitstream from a simscape™ half-wave rectifier model and download the bitstream to a speedgoat® fpga i/o 334-325k target for hardware-in-the-loop (hil) implementation.

tune pi controllers using field oriented control autotuner block on real-time systems (motor control blockset)

compute the gain values of pi controllers within the speed and current controllers by using the field oriented control autotuner block.

(simscape electrical)

this is the base model for analysis workflow examples.

(simscape electrical)

this example shows how to control the rotor speed in a switched reluctance machine (srm) based electrical drive.

(simscape electrical)

this example shows a high-voltage battery like those used in hybrid electric vehicles.

related information


signal processing

active noise control with simulink real-time (audio toolbox)

design a real-time active noise control system using a speedgoat® simulink® real-time™ target.

fpga solutions

generate simulink real-time interface subsystem for simscape two-level converter model (hdl coder)

generate hdl code and simulink real-time interface model from simscape™ models.

fpga programming and configuration on speedgoat simulink-programmable i/o modules (hdl coder)

select and run hdl code generation and synthesis workflow for a speedgoat target computer.

hardware-in-the-loop implementation of simscape model on speedgoat fpga i/o modules (hdl coder)

this example shows how to synthesize and generate fpga bitstream from a simscape™ half-wave rectifier model and download the bitstream to a speedgoat® fpga i/o 334-325k target for hardware-in-the-loop (hil) implementation.

related information


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