MATLAB and Simulink for Artificial Intelligence
MATLAB and Simulink enable engineers to design, simulate, and deploy AI algorithms, models, and AI-driven systems.
Medical Devices
Design, simulate, prototype, validate, and deploy next-generation medical devices
The future of the healthcare industry will revolve around new technological advancements and big data. Smart medical devices and data-driven patient care are already revolutionizing the healthcare industry. Automation improves efficiency, opens the door to more personalized care, and increases profitability. However, the deployment and advancement of new smart technologies are not without challenges unique to the healthcare industry.
Surgical devices, robots, magnetic resonance equipment, defibrillators, and ventilators combine advanced multi-domain physical components and run equire error-proof operation.
MathWorks®, COMSOL®, and Speedgoat products enable engineers, researchers, and scientists to design, simulate, test, prototype, and validate medical equipment. MATLAB®, Simulink®, COMSOL Multiphysics®, and Speedgoat help to ensure reliability, traceability, scalability, and compliance with regulations and standards.
Engineers use our products to:
- Design, simulate, and test algorithms for sensor data and control systems
- Develop real-time image processing algorithms for computer-aided diagnosis
- Simulate and analyze life science data
- Use computational modeling to test, validate, and verify medical devices
- Train, validate, and integrate explainable artificial intelligence (AI) and deep learning models into the system design
- Design and simulate control systems, power systems, antennas, and arrays
- Incorporate verification and validation into the software development workflow
- Automatically generate documentation required by the IEC 62304
- Verify and optimize the design of medical devices
- Simulate the interaction between a biological system and a medical device
- Model and Simulate electrical and magnetic stimulation of neural tissue
- Simulate hemodynamics within blood-contacting medical devices
- Develop virtual prototypes and digital twins
- Optimize the manufacturing process on a large scale
Products
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Matlab
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Simulink
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Signal Processing Toolbox
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Control System Toolbox
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Simulink Design Optimization
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Simscape
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Statistics and Machine Learning Toolbox
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Wavelet Toolbox
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GPU Coder
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Simulink Real-Time
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Simulink Desktop Real-Time
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Requirements Toolbox
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Embedded Coder
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IEC Certification Kit
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Polyspace
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Image Processing Toolbox
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COMSOL Multiphysics®
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COMSOL Compiler™
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COMSOL Server™
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AC/DC
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RF
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Wave Optics
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Ray Optics
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Semiconductor
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CFD
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Mixer
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Polymer Flow
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Microfluidics
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Porous Media Flow
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Pipe Flow
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Heat Transfer
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Structural Mechanics
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Nonlinear Structural Materials
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Composite Materials
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Fatigue
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Rotordynamics
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Multibody Dynamics
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MEMS
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Acoustics
Learn more - Chemical Engineering Modules
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Chemical Reaction Engineering
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Battery Design
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Fuel Cell & Electrolyzer
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Electrodeposition
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Corrosion
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Electrochemistry
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Optimization Module
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Uncertainty Quantification Module
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Material Library
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Particle Tracing Module
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Liquid & Gas Properties Module
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LiveLink™ for MATLAB®
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LiveLink™ for Simulink®
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LiveLink™ for Excel®
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CAD Import Module
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Design Module
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ECAD Import Module
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LiveLink™ for SOLIDWORKS®
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LiveLink™ for Inventor®
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LiveLink™ for AutoCAD®
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LiveLink™ for Revit®
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LiveLink™ for PTC® Creo® Parametric™
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LiveLink™ for PTC® Pro/ENGINEER®
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LiveLink™ for Solid Edge®
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File Import for CATIA® V5
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Trainings
Biotech and Pharmaceutical Training Curricula
Biomedical Image Processing Curriculum
Bioinformatics Curriculum
Biomedical Signal Processing and Data Analysis
Blogs and user stories
Stay up to date with the industry's latest trends and learn the best pactices to innovate and optimize your engineering designs.
Expletive Pharma Improves Productivity with a Matlab-Driven Pricing System
“The Gamax team was very helpful. I am completely satisfied with their professionalism and their attitude towards me and the project.”
– Gábor Nagy, Expletive Pharma
FBMC – An Ever-Promising Candidate for 5G Technologies and Beyond
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MATLAB and Simulink for Biotech and Pharmaceutical
Scientists and engineers can use MATLAB to hybridize data from various data streams, such as signal, picture, text, and genetic
Motor Control Design with Simulink
Reduce motor control development time by using simulation models to design and verify control algorithms and deploy those algorithms to hardware using automatic code generation
Deep Learning for Images Classification
Image recognition is a computer vision technique that allows machines to extract, process, and classify information from images and videos.
Battery Management Systems Development with Simulink and Model-Based Design
Gain insight into the dynamic behavior of a battery pack, test operational cases, explore software architectures and perform hardware testing early in the design process