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KIMM Develops Prototype Maglev-Based Antirolling System for Mobile Harbors

“We completed the prototype in just three months with Model-Based Design. We saved months of development time by using an integrated environment to model the controller and the physical system, simulate them together, generate code, and create a real-time hardware prototype that worked flawlessly.” —Cheol Hoon Park, Korea Institute of Machinery and Materials

Electrodynamics Associates Designs High-Performance Generator Controller for the Military with Simul

"Other tools only allowed us to view certain parameters of the machine. Now, we can look at all of them. MathWorks tools are orders of magnitude better than any other tool on the market." - Jay Vaidya, Electrodynamics Associates

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Industrial Automation and Machinery

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Manufacturers of equipment used in manufacturing, testing, and power generation applications face complex challenges to develop embedded applications that integrate with mechanical, electrical, control, and signal processing systems. Forward-looking companies are turning to Model-Based Design to redefine the way they perform system-level design.

Model-Based Design enables industrial equipment makers to create executable specifications in the form of Simulink® models that provide clear design direction to diverse engineering groups.

Sharing models shifts the focus of the development process from design and test on hardware to design and test with models, enabling early verification across domains before investing in prototypes. Machine makers then leverage code-generation technology to reduce rework, link code to design, and allow software engineers to focus on software architecture.

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