Designed with MATLAB
Innovative products and technologies designed with MATLAB and Simulink
Innovative products and technologies designed with MATLAB and Simulink
On or off road, Jaguar Land Rover’s vehicles are optimized for steering, ride, and handling using a suite of advanced tools based on MATLAB.
Lightyear One engineers used MATLAB as a “Swiss Army knife” to optimize energy flow to an all-wheel-drive, five-seater electric car charged by the sun.
Mahindra & Mahindra analysis for tractor rollover protective structures cut from two to three hours to just five minutes with MATLAB applications.
Cognizant uses MATLAB and Automated Driving Toolbox™ to conduct driver-in-the-loop simulations.
Kyburz is expediting the development of safe self-driving vehicles for use in delivery operations.
TMETC is powering a real-world trial of connected and self-driving vehicles on the streets of UK cities.
A robot developed by EbyT uses lidar to explore indoor spaces without a map.
Ather Energy is using Model-Based Design to change the way people perceive electric vehicles.
Rolls-Royce commercial jet engines are built with Model-Based Design.
Tessella used MATLAB and Simulink to design altitude and orbit control algorithms for the European Space Agency Solar Orbiter.
ADE modeled a servo valve–controlled electrohydraulic flight control actuator using MATLAB and Simulink.
Submarine ultrasonic imaging algorithms by BAE were built using MATLAB.
At Airbus, experts use Simulink to create a technology road map.
Leonardo engages young engineering talent through academic placements that investigate disruptive technologies for aerospace, defense, and security.
Real-time testing with Simulink is used for the Thales Lightweight Multirole Missile.
Cadence and bat365 tools bridge the divide between ICs and system design.
Qualcomm developed 5G RF front-end components and control algorithms with MATLAB.
NXP uses MATLAB for automotive radar hardware verification.
GlobalFoundries used MATLAB and Simulink early in its design to simulate the effect of phase noise and signal-to-noise ratio in PAM4 signaling.
MATLAB and NVIDIA are transforming engineering and science with deep learning.
Using Model-Based Design, Xilinx has extended the capabilities and performance of traditional FPGA solutions.
MATLAB helps Atlas Copco connect colleagues, customers, and the supply chain to reduce manufacturing throughput times and improve workplace safety.
AI models based on MATLAB and Simulink drive toward zero-defect manufacturing at GF Machining Solutions.
Model-Based Design provides a single design environment across cooking, dishwasher, and refrigeration platforms at Whirlpool.
Model-Based Design is driving higher quality and quicker time to market at ASML.
IFB is leveraging MATLAB to build smarter washing machines that select the best cycle for each load.
Schindler Elevators has recognized the benefits of modeling and simulating elevator designs, from skyscrapers in the desert to cruise ships.
Kyburz uses Robotics System Toolbox™ to develop safe self-driving systems.
Model-Based Design provides a path from algorithm to hardware implementation for implantable medical products at Abbott Labs.
Model-Based Design at Getinge increases the development speed and efficiency of healthcare and life science products.
Corindus Vascular Robotics used Model-Based Design with MATLAB and Simulink to develop a system for telerobotic interventions.
Olea incorporated MATLAB into the machine learning design flow of its vital signs monitoring technology to develop feature extraction and signal processing algorithms.
Simulation plays a role in quickly moving an idea from the laboratory to the field at GE Global Research.
MATLAB and Simulink are playing a role in the development and realization of an energy-efficient transportation network at Hardt Global Mobility.
Model-Based Design helped Vestas improve its process for building hybrid wind power plants.
Machine learning and deep learning techniques using MATLAB have helped Shell speed up processes while increasing reliability.
NLE predicts customer behavior using big data analytics with MATLAB in the cloud.
3T used Model-Based Design to build high-performance motion controllers with SoCs.
Specialists at perisens use MATLAB to evaluate new wireless standards before the hardware hits the market.
The team at Sooktha Consulting uses MATLAB for 5G NR PHY implementation, algorithm design, and new waveform research.
MATLAB enables the design of a premium dial at Fisher & Paykel.
GSK uses Deep Learning Toolbox™ to learn from historical data and make better products.
Lekha Wireless used MATLAB for design analysis and verification of 5G NR waveforms.
Bowers & Wilkins simplifies the customer experience and product development workflow using MATLAB.
Model-Based Design is used at HSBC for forecasting the future to manage financial risk.
MATLAB, together with a microservice architecture, enables KPMG to build high-performing, scalable software embedding advanced financial and statistical techniques.
Data science with MATLAB helps combine human and machine decisions for better financial systems at KPMG.
Aberdeen Standard Investments uses machine learning to analyze financial market trends and power innovative asset allocation strategies.
Swiss Re uses MATLAB for maintaining its internal risk model.
MATLAB helps QSuper design appropriate investment solutions for retirees.
Caterpillar developed a big data infrastructure using deep learning and machine learning.
Tata Steel improved industrial cooling tower energy efficiency by using MATLAB.
Exploring Microsoft Machine Teaching Online Service for Building Autonomous Systems Using Simulink Models Highlights
MATLAB and National Instruments tools are used for RF design and test.
Model-Based Design enabled Ikerlan to simulate an encoder for real-time testing for elevator safety.
The BabbleLabs Clear Cloud deep learning speech technology was created in record time using MATLAB.
Modern numerical weather forecasts are made possible using MATLAB at Meteomatics.
Abbey Road Studios used MATLAB to create a proprietary algorithm for sound source separation.
Gnarus used MATLAB and ThingSpeak to build an IoT-based integrated water management system.