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

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Aerospace Industry Solutions

Aerospace Industry Solutions

Realize your Innovation - The need to increase reliability while reducing risk in Aerospace requires new, yet well-proven solutions for prototyping and testing.

Industry Use Cases

Rapid Control Prototyping

Hardware-in-the-Loop

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

Certification Process for a Hybrid Electric Aircraft

Certification Process for a Hybrid Electric Aircraft

The scientific aviation association (FVA) is developing the FVA 30, a hybrid electric motor glider, to research alternative propulsion systems. This article focuses on the certification process of the FVA 30 power train, using a Speedgoat target computer.

Hardware-in-the-Loop

Published Papers

Battery Management System Integration into an Electronic Control Module for a Hybrid Electric Aircraft

Battery Management System Integration into an Electronic Control Module for a Hybrid Electric Aircraft

Th­is article focuses on BMS integration into the electronic control module (ECM) of the FVA 30 hybrid electric motor glider using a Speedgoat real-time target machine. The challenge is to design an ECM for reliable data processing, allowing pilots to monitor and control the drivetrain.

Published Papers

Rapid Control Prototyping

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

Structural Test

Structural Test

Use the Speedgoat system for fast acquisition and monitoring of signal data and for closed control loops. For example, for active anti-damping systems for bridges and buildings, for simulating environmental scenarios such as earthquakes, or for vibration platforms in the automotive and aerospace industries.

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

Power Hardware-in-the-Loop

Power Hardware-in-the-Loop

Speedgoat provides a wide range of real-time P-HIL solutions to test and verify power electronics and power system components. Utilize complex physical models designed with MathWorks tools on multi-core CPUs and FPGAs with the highest level of performance.

Hardware-in-the-Loop

Industry Use Cases

UAV Modeling and Testing

UAV Modeling and Testing

Create a real-time virtual testing environment to safely test new designs early in the development and avoid expensive reruns of flight campaigns and reduce downtime in the field.

Industry Use Cases

Hardware-in-the-Loop

Rapid Control Prototyping

Vorticity Dynamics of Leading-Edge Vortex Formation on a Revolving Wing

Vorticity Dynamics of Leading-Edge Vortex Formation on a Revolving Wing

A leading-edge vortex (LEV) forms and remains stably attached on high angle-of-attack (AoA), low aspect ratio (AR) wings undergoing revolving or flapping motion at an insect’s wing. Here, the LEV formation on a revolving wing is investigated. The 'Shake-the-box' (STB) Lagrangian particle tracking velocimetry (PTV) system and a volumetric patching process helped reconstruct the entire time-resolved flow field.

Publication on springer.com

Published Papers

HIL of Battery Management Systems

HIL of Battery Management Systems

Verify, validate, and test battery management system (BMS) controllers and hardware components using hardware-in-the-loop testing (HIL) and battery cell emulators.

Industry Use Cases

Hardware-in-the-Loop

Flight Controller and Autoflight Systems

Flight Controller and Autoflight Systems

Develop and test your flight controller or complete auto-flight system with the MathWorks Aerospace Toolbox and Speedgoat systems to simulate conditions for every flight scenario.

Industry Use Cases

Hardware-in-the-Loop

Rapid Control Prototyping

Power Management / More Electric Aircraft

Power Management / More Electric Aircraft

Develop and validate power management and control systems for your more electric aircraft using real-time simulation and testing.

Industry Use Cases

Hardware-in-the-Loop

Rapid Control Prototyping

Hybrid Aircraft

Hybrid Aircraft

Simulate and test your electric hybrid hydrogen fuel-cell, and battery propelled aircraft using rapid control prototyping.

Industry Use Cases

Hardware-in-the-Loop

Rapid Control Prototyping

FADEC / Engine Controller

FADEC / Engine Controller

Reduce time to market with the MathWorks-Speedgoat workflow for your Engine Control Unit (ECU) or your Full Authority Digital Engine Control (FADEC).

Industry Use Cases

Hardware-in-the-Loop

Rapid Control Prototyping

Bypassing

Bypassing

Deploy and test software updates and new hardware builds by implementing a bypassing process in your flight computer.

Industry Use Cases

Hardware-in-the-Loop

Rapid Control Prototyping

Sensor Fusion of Vision, Radar and Laser

Sensor Fusion of Vision, Radar and Laser

Develop, improve, and test spectrum monitoring and signal intelligence using solutions from Speedgoat.

Industry Use Cases

Hardware-in-the-Loop

Rapid Control Prototyping

RCP for Motor Control Drives

RCP for Motor Control Drives

Design, test, and validate novel motor control algorithms for electric motors using Simulink® and Speedgoat hardware. Use a wide range of functionality like PWM, encoders, and many more.

Industry Use Cases

Rapid Control Prototyping

Power Hardware-in-the-Loop

Power Hardware-in-the-Loop

HIL testing of power components like battery chargers using AC or DC power interfaces. Speedgoat supports power amplifiers from EGSTON Power, Cinergia, and Puissance Plus.

Industry Use Cases

Hardware-in-the-Loop

Leading-Edge Vortex and Transient Lift on a Revolving Wing at Low Reynolds Numbers

Leading-Edge Vortex and Transient Lift on a Revolving Wing at Low Reynolds Numbers

The transient formation and the stable attachment of the leading-edge vortex (LEV) contribute to the high lift generation of an insect wing when it revolves at high angles of attack. This study examined the leading-edge vortex (LEV) formation and the transient lift generation on a revolving wing, using combined computational and experimental methods.

Publication on sciencedirect.com

Published Papers

Real-Time Learning of Efficient Lift Generation on a Dynamically Scaled Flapping Wing

Real-Time Learning of Efficient Lift Generation on a Dynamically Scaled Flapping Wing

This work presents a successful application of a policy search algorithm to a real-time robotic learning problem, where the goal is to maximize the efficiency of lift generation on a dynamically scaled flapping robotic wing. Learning is performed for different prescribed stroke amplitudes to find the optimal wing pitching amplitude and the stroke-pitch phase difference that maximize lift generation's power loading (PL), a measure of aerodynamic efficiency.

Publication on ieeexplore.ieee.org

Published Papers

Visual Motion Tracking and Sensor Fusion for Kite Power Systems

Visual Motion Tracking and Sensor Fusion for Kite Power Systems

Line-based estimation of the kite state, including position and heading, limits the achievable cycle efficiency of such airborne wind energy systems. Experimental results of a visual motion tracking estimation and an inertial sensor fusion on a ground-based kite power system in pumping operation are presented and compared to an existing estimation scheme based on line.

Publication on springer.com

Published Papers

Transient Engine Emulation within a Laboratory Testbed for Aircraft Power Systems

Transient Engine Emulation within a Laboratory Testbed for Aircraft Power Systems

This paper presents an engine emulation system utilized within a hardware-in-the-loop (HIL) test environment for aircraft power systems. It focuses on the software and hardware interfaces that enable the coupling of the rotor dynamics model that provides the critical link between the modeled dynamics of the engine and the measured dynamics of the generator.

Publication on dx.doi.org

Published Papers

Hardware-in-the-Loop

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