Communications

Design, simulate, and prototype communications systems.

4Advances in weird and wireless communications necessitate a new level of technology integration, putting old development methods to the test. MathWorks®, COMSOL®, and Speedgoat products make it possible for engineering and R&D teams to swiftly and accurately design, simulate, and verify communications systems. Teams can leverage our products to reduce development time, identify and eliminate design flaws early on, and streamline testing and verification.

Engineers use our products to:

  • Build computational models to analize data
  • Optimizing the design of a mobile device antenna
  • Optimizing the design of dish and inflatable satellite antennas
  • Develop virtual prototypes
  • Couple electromagnetics with heat transfer, structural mechanics, fluid flow, and other physical phenomena
  • Test different geometries, thermocouple configurations, and material selection
  • Calculate the field distribution plot for the PIFA throught simulation
  • Calculate the polar-formatted far-field radiation pattern

Learn more

Products

COMSOL Multiphysics®
Learn more
COMSOL Compiler™
Learn more
COMSOL Server™
Learn more
Electromagnetics Modules
AC/DC
Learn more
Wave Optics
Learn more
Ray Optics
Learn more
Plasma
Learn more
Semiconductor
Learn more
Fluid Flow & Heat Transfer Modules
Mixer
Learn more
Polymer Flow
Learn more
Microfluidics
Learn more
Porous Media Flow
Learn more
Subsurface Flow
Learn more
Pipe Flow
Learn more
Molecular Flow
Learn more
Metal Processing
Learn more
Heat Transfer
Learn more
Structural Mechanics & Acoustics Modules
Structural Mechanics
Learn more
Nonlinear Structural Materials
Learn more
Composite Materials
Learn more
Geomechanics
Learn more
Fatigue
Learn more
Rotordynamics
Learn more
Multibody Dynamics
Learn more
MEMS
Learn more
Acoustics
Learn more
Chemical Engineering Modules
Chemical Reaction Engineering
Learn more
Battery Design
Learn more
Fuel Cell & Electrolyzer
Learn more
Electrodeposition
Learn more
Corrosion
Learn more
Electrochemistry
Learn more
Multipurpose Products
Optimization Module
Learn more
Uncertainty Quantification Module
Learn more
Material Library
Learn more
Particle Tracing Module
Learn more
Liquid & Gas Properties Module
Learn more
Interfacing Products
LiveLink™ for MATLAB®
Learn more
LiveLink™ for Simulink®
Learn more
LiveLink™ for Excel®
Learn more
CAD Import Module
Learn more
Design Module
Learn more
ECAD Import Module
Learn more
LiveLink™ for SOLIDWORKS®
Learn more
LiveLink™ for Inventor®
Learn more
LiveLink™ for AutoCAD®
Learn more
LiveLink™ for Revit®
Learn more
LiveLink™ for PTC® Creo® Parametric™
Learn more
LiveLink™ for PTC® Pro/ENGINEER®
Learn more
LiveLink™ for Solid Edge®
Learn more
File Import for CATIA® V5
Learn more

Trainings

Communications, Electronics, Semiconductors, Software and Internet Training Curricula

  • Communications, Electronics, Semiconductors, Software and Internet Curricula

  • Digital Signal Processing Curriculum

  • Analog Mixed Signal Curriculum

  • Wireless Communications Systems Curriculum

  • AI and Data Science Curriculum

  • 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.


    Engineer working in Optimization Module of COMSOL

    Structural Optimization with COMSOL Multiphysics

    Explore COMSOL’s Optimization Module for enhanced engineering designs. This video provides a quick overview of COMSOL Multiphysics, spotlighting mechanical modeling and optimization tools. The presentation includes a live demonstration of a straightforward stress/strain optimization of a mechanical component subject to static loading and more.

    5 unusual simulations in comsol multiphysics

    5 Unusual Simulations in COMSOL Multiphysics

    This blog lists five unusual and unique simulations carried out in COMSOL Multiphysics, illustrating the comprehensive capabilities of the software and the fascinating side of modeling and simulation for science, research, and engineering.

    Reduced Order Modeling based on Neural Networks

    Reduced Order Modeling Based on Neural Networks

    Learn about Reduced Order Modeling (ROM), how it can be used to solve problems quickly and maximize your time and effort, and how you can create a reduced order model based on Neural Networks in MATLAB

    Ai robotics working on a car

    AI: Driving the Industry Towards Greater Success

    Artificial intelligence (AI) is seen as a promising technology that can help leading OEMs to maintain their position as market leaders. In this post, read about how AI is changing the manufacturing sector, as well as its potential advantages and potential drawbacks.

    MATLAB and Simulink for Artificial Intelligence

    Learn about MATLAB and Simulink’s capabilities for creating AI-driven products and services, including the benefits of using these platforms, key components of the AI workflow, and the integration of AI models into real-world applications.