Knowledge Center

Collection of videos, reference applications, and more to support your real-time simulation and testing workflows

Content


Real-Time Simulation and Testing with Simulink Real-Time and Speedgoat Hardware

Real-Time Simulation and Testing with Simulink Real-Time and Speedgoat Hardware

Speedgoat real-time solutions and Simulink® are expressly designed to work together for creating real-time systems for desktop, lab, and field environments.

Workflow Introductions

Hardware-in-the-Loop

Rapid Control Prototyping

Hardware-in-the-Loop Simulation

Hardware-in-the-Loop Simulation

Effectively Test Controls with Real-Time Digital Twins and Automated Testing.

Workflow Introductions

Hardware-in-the-Loop

Industry Use Cases

Rapid Control Prototyping

Rapid Control Prototyping

Accelerate Control Design Innovation With Model-Based Design Ready Solutions for a Worry-Free Test and Simulation Experience.

Workflow Introductions

Rapid Control Prototyping

Industry Use Cases

Introduction to Speedgoat FPGA Technology

Introduction to Speedgoat FPGA Technology

Learn about the Simulink-integrated workflows to configure and program FPGA I/O modules easily and directly from your model.

Workflow Introductions

Hardware-in-the-Loop

Rapid Control Prototyping

Developing and Testing Control Systems with MATLAB and Simulink

Developing and Testing Control Systems with MATLAB and Simulink

The webinar explains you an engaging learning experience by exposing you to a broad set of real-life testing scenarios, including real-time interactions with digital twin simulators and physical systems, such as motion sensors, electric motors, and robot manipulators.

Rapid Control Prototyping

Hardware-in-the-Loop

Recorded Webinars

Medical Device Solutions

Medical Device Solutions

Helping medical personnel perform better, safer, and more efficient treatments.

Industry Use Cases

Hardware-in-the-Loop

Rapid Control Prototyping

Electric Motor Control Reference Application

Electric Motor Control Reference Application

Design, prototype, and test your brushless DC motor controls using Simulink and Speedgoat hardware

Reference Applications

Rapid Control Prototyping

Hardware-in-the-Loop

Developing and Testing Next Generation Control Systems

Developing and Testing Next Generation Control Systems

Learn how Speedgoat enables you to prototype and test complex control algorithms using full-vehicle simulation. By building a virtual environment for safe and realistic testing and verification, you can reduce prototype testing costs.

Recorded Webinars

Hardware-in-the-Loop

Rapid Control Prototyping

Real-Time Simulation and Testing: Hardware-in-the-Loop

Real-Time Simulation and Testing: Hardware-in-the-Loop

Hardware-in-the-Loop (HIL) Simulation and Testing with Simulink Real-TimeTM and Speedgoat target computers.

Recorded Webinars

Hardware-in-the-Loop

Rapid Control Prototyping for Permanent Magnet Synchronous Motor (PMSM) Control

Rapid Control Prototyping for Permanent Magnet Synchronous Motor (PMSM) Control

Power Electronics and Motor Control Prototyping on CPU/FPGA Target Hardware with Simulink Real-TimeTM.

Recorded Webinars

Rapid Control Prototyping

CPU, FPGA, and I/O Solutions for Real-Time Simulation and Testing with Simulink

CPU, FPGA, and I/O Solutions for Real-Time Simulation and Testing with Simulink

In this webinar, MathWorks together with Speedgoat will showcase how to perform real-time simulation and testing, enabling you to rapidly and continuously test and prove your designs, from desktop simulation to testing your designs in real time on hardware platforms.

Recorded Webinars

Hardware-in-the-Loop

Rapid Control Prototyping

Model-Based Design for Predictive Maintenance, Code Generation and Real-Time Testing

Model-Based Design for Predictive Maintenance, Code Generation and Real-Time Testing

This video shows how to automatically generate C code from classification models. First, you’ll see how to validate your algorithm on the desktop. Then, once it is validated, the video will show how to generate code. Next, the video walks through how to use Simulink® to deploy the classification model onto a B&R PLC, and then test it on a real-time representation of the system using a Speedgoat machine.

Recorded Webinars

Hardware-in-the-Loop

Rapid Control Prototyping

HIL Testing of BMS using Simulink Real-Time and Speedgoat target hardware

HIL Testing of BMS using Simulink Real-Time and Speedgoat target hardware

This webinar will demonstrate how engineers can perform hardware-in-the-loop (HIL) testing to validate and test their Battery Management Systems design using Simulink Real-TimeTM and Speedgoat Target hardware.

Recorded Webinars

Hardware-in-the-Loop

FPGA-based rapid control prototyping of permanent magnet synchronous motor servo drives

FPGA-based rapid control prototyping of permanent magnet synchronous motor servo drives

Due to tight time constraints and unknown disturbances, the position control problem in permanent magnet synchronous machine (PMSM) drives remains exceedingly challenging. Download this technical article to learn more about experimental validation of a cascade control structure for position control in PMSM drives.

Whitepapers

Speed Up Digital Control Development for Motors, Power Converters, and Battery Systems with Simulink

Speed Up Digital Control Development for Motors, Power Converters, and Battery Systems with Simulink

Digital control design for power electronics using Simulink® makes it easy to try new ideas, test them, and go to hardware without coding. You can use system-level models for desktop simulation, real-time simulation, and production code generation, speeding up designing and testing your power electronics control systems.

Whitepapers

10 Ways to Speed Design for Digitally Controlled Power Converters with Simulink

10 Ways to Speed Design for Digitally Controlled Power Converters with Simulink

This whitepaper highlights ways to accelerate digital control development for power converters with system-level simulation, how to validate control code on the processor without damaging electrical system hardware and developing real-time simulations of your electrical system.

Hardware-in-the-Loop

Rapid Control Prototyping

Whitepapers

Robotic Glove with Integrated Sensing for Intuitive Grasping Assistance

Robotic Glove with Integrated Sensing for Intuitive Grasping Assistance

This paper presents a fully integrated soft robotic glove with multi-articular textile actuators, custom soft sensors, and an intuitive detection controller. The state-machine-based controller uses signals from integrated sensors to detect relative changes in hand-object interactions.

Publication on ieeexplore.ieee.org

Published Papers

Rapid Control Prototyping

An Open Development Platform for Auditory Real-Time Signal Processing

An Open Development Platform for Auditory Real-Time Signal Processing

This paper presents an auditory real-time processing algorithm platform ("Open Development Platform", ODP) that simplifies developing novel real-time algorithms. ODP leverages MATLAB / Simulink and runs on Speedgoat real-time target machines. The authors show how they developed a fully functional hearing aid for research purposes using ODP.

Publication on sciencedirect.com

Published Papers

An Ankle-Foot Prosthesis Emulator Capable of Modulating Center of Pressure

An Ankle-Foot Prosthesis Emulator Capable of Modulating Center of Pressure

The authors of this paper developed an ankle-foot prosthesis emulator to restore human feet' balancing and push-off characteristics. The proposed emulator system consists of two torque-controlled forefoot digits and a torque-controlled heel digit which meets all design criteria to modulate the center of pressure and ground reaction force effectively.

Publication on ieeexplore.ieee.org

Published Papers

Design and Experimental Characterization of a Hydrostatic Transmission for Upper Limb Exoskeletons

Design and Experimental Characterization of a Hydrostatic Transmission for Upper Limb Exoskeletons

The authors introduce a design of a novel hydrostatic air-liquid torque transmission system for an upper limb exoskeleton. Transmission of fluid on rolling membrane cylinders guarantees leakage-free operation, no backlash, and zero stick friction. By employing a new test bench of the fluid transmission system developed, they conducted experiments to characterize the static and dynamic response for different design parameters.

Publication on ieeexplore.ieee.org

Published Papers

Computer Vision

Computer Vision

Rapidly build, run, and test video acquisition and control applications with a Speedgoat real-time target machine. There is a wide range of applications from the design of phone cameras to autonomous vehicle systems.

Rapid Control Prototyping

Hardware-in-the-Loop

Industry Use Cases

Audio

Audio

Highly controlled manipulations are required e.g. for hearing aids, noise cancelling headphones, or car acoustics. Speedgoat real-time systems provide high performance, high-resolution analog and digital I/O, together with MATLAB & Simulink.

Rapid Control Prototyping

Hardware-in-the-Loop

Industry Use Cases

Embedded

Embedded

Leverage real-time target machines for use as embedded controllers.

Rapid Control Prototyping

Industry Use Cases

Speech Intelligibility with Binaurally linked Hearing Aids

Speech Intelligibility with Binaurally linked Hearing Aids

This study investigates whether using spatial cues benefits speech intelligibility for binaurally linked hearing aids. The control algorithms and signal processing models were tested on a Speedgoat target machine to quickly switch between different versions of the algorithms and test them in real-time.

Publication on proceedings.isaar.eu

Published Papers

Real-Time Loudness Normalization with Combined Cochlear Implant and Hearing Aid Stimulation

Real-Time Loudness Normalization with Combined Cochlear Implant and Hearing Aid Stimulation

This study features an acoustic loudness model running on a Speedgoat real-time system. Researchers tested speech perception and sound localization of bimodal listeners, both in standard loudness growth configuration and modified loudness growth configuration. The subjects have also used linear and compressive hearing aids.  

Publication on ncbi.nlm.nih.gov

Published Papers