Model-Based Design in Middle School
Design Variant Management in Model-Based Design
Next-Generation Endoscopic Surgical Stapler Prototyping
Student Team wins Freescale Cup with Model-Based Design
Implementing Modeling Standards
Developing a Period-Based Air-Fuel Ratio Controller
This video documents a project to build an automated autonomous emergency response system.
Driving the Adoption of Model-Based Design for Communications System Development at Hitachi
Creating a High-Fidelity Model of an Electric Motor for Control System Design and Verification
Accelerating the Design of Radio Astronomy Instruments in South Africa and Worldwide with Simulink
Model-Based Design of Control Systems: Simulate and Test Before Committing to Hardware
Accelerate control system development for high-voltage direct current voltage source converters
Demonstrating how MATLAB and Simulink implement students' algorithms on low-cost hardware platforms
Produce a real-time prototype incorporating 80% of the final product’s functionality in a few months
Model-Based Software Design, an elective course for fifth-year students, prepares future engineers.
Watch the video to learn how simulations answer questions.
Model-Based Design with MATLAB and Simulink enabled Septentrio to streamline DO-178B certification.
TNO's shockwave-damping software helps ensure smooth traffic flow after sudden braking incidents
A challenging controls project gives many students the skills of seasoned engineers.
Model-Based Design enables Hugo Petersen to cut costs and reduce development time.
Fraunhofer LBF and Ricardo develop piezo-hydraulic high-pressure pump for automotive applications.
Automotive powertrain matching and shift-schedule optimization
Lockheed Martin and NASA using MATLAB/Simulink to develop and test GN&C Flight Software
Models and simulations allow engineers to develop energy-efficient products and technologies
“Model Based Design” Using Simulink and Simscape for Spec Capture; Simulation; Design; Code Gen; V&V
Wettbewerbe fordern Studenten heraus, sich den gleichen technischen Problemen zu stellen
Das Applied Physics Laboratory der Johns Hopkins University koordiniert ein weltweites Expertenteam
Ein unter der Führung von Ingenieuren aus Detroit entwickelter Kurs lehrt Model-Based Design
Die IAV verkürzt ihre Entwicklungszeit von drei Jahren auf nur 18 Monate
Competitions challenge students to tackle the same technical issues as professional engineers
Johns Hopkins University Applied Physics Laboratory leads a global team
Model-Based Design enabled IAV to reduce their mass-production ECU development process
In only its third year of competition, the TU/e team placed second in the RoboCup championship
The article demonstrates how modeling design patterns can be used to generate efficient C code
This video demo gets you started with Simulink. It takes you through many key concepts in buildin...
Accelerate system-level analysis and control design with accurate and intuitive models of your ph...
The Dutchroll Blockset for Simulink (in short: DUBSI) is a collection of several general-purpose ...
MATLAB and Simulink Report Generator creates customized reports in multiple output formats from y...