Demo Stations
AI in Automotive: Building Smart Apps Using Data and the Cloud
Operationalizing AI Algorithms for Range Estimation
- No/low code AI-driven system design
- Deploying the models to embedded targets
- Continuous improvement on deployed algorithms with MATLAB in the cloud
Battery Fleet Analytics in the Cloud
- Accessing data from the cloud
- Leveraging the cloud for model training
- Deploying AI algorithms on the production server
- User RestAPI protocol for fetching results on live dashboards
AI for Product Design Optimization
- Building a design of experiments (DOE) table for component design
- Creating surrogate AI models from high-fidelity simulations
- Running multiobjective design optimization studies using AI models
Robust Workflows for Software-Defined Vehicle App Development
Building Driver Awareness Features Adhering to Functional Safety Workflow Using CI/CD
- Innovate and prequalify before submitting to a CI pipeline
- Extend Model-Based Design workflows into CI platforms
- Simplify adoption by using CI automation support
Application of Formal Methods in the Software Factory for Automotive Software
- Software testing in continuous integration (on premises, cloud)
- Using formal methods to address vulnerabilities and achieving DevSecOps in the software factory
- Establishing a mature issue detection process to enable shift-left verifications
- Ensuring modern automotive software compliance to ISO 26262 and ISO 21434
Model-Based Systems Engineering for Electric Vehicle and Charger Development
- Requirement management
- System and component architecture development
- Trade studies for architecture analysis
- Compliance to ASPICE standards
Electrification
Live Range Prediction of Electric Vehicles
- Electric vehicle modeling for optimal live range predictions
- Real-time data integration with maps including route information, traffic congestion, and road elevation
- Developing AI-based models to analyze historical driving patterns and adjust predictions
- Using cloud-based architecture for data processing and analysis
Electric Vehicle Development: Utilizing System-Level Simulation for Thermal Analysis and Control
- Electric vehicle component thermal analysis
- Development and testing for vehicle control units, battery management, and thermal management
EV Traction Motor Control Made Easy
- Model and parameterize motors
- Autotune speed and current controllers with the Field Oriented Control Autotuner block
- Deploy motor control algorithms onto desired target hardware
AD/ADAS
Smart Testbench for Automated Driving System Validation
- Creating variants for scenarios in Euro NCAP and others
- Iteratively identifying the failure scenario for regression testing
- Integrated test automation and automatic variant generation for validating ADAS systems
Scene and Scenario Modeling from RoadRunner
- Creating scenes and scenarios in RoadRunner
- Creating recorded sensor data in scenarios
- Interoperating with ASAM standards in OpenDRIVE, OpenSCENARIO, OpenCRG, and Open Simulation Interface (OSI)
System Modeling and Algorithm Development for Automated Parking Valet
- Creating scenarios and modeling a MIMO transceiver chain for 4D automotive radar
- Antenna array modeling and waveform design I/Q data generation
- Perception, sensor fusion, path planning, and controls
- Other reference applications including AEB, HLF, parking valet, and traffic negotiations
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