Radar Toolbox
Radar Toolbox provides algorithms and tools for designing, simulating, analyzing, and testing monostatic, bistatic, and multifunction radar systems. It supports workflows from requirements to field data analysis for airborne, ground-based, shipborne, and automotive applications.
The Radar Designer app enables you to perform interactive link budget analysis and design trade-offs at the radar equation level. The toolbox provides models for transmitters, receivers, propagation channels, targets, interferers, and clutter in a virtual environment. You can use these models to generate synthetic data in complex RF environments.
Radar Toolbox includes algorithms for processing signals and data collected from hardware. For simulation acceleration or rapid prototyping, the toolbox supports C code generation.
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Learn the basics of Radar Toolbox
Applications
Multifunction and cognitive radar, automotive radar, AI for radar, and hardware connectivity
Radar Systems Engineering
Radar equations, environment and system losses, detection and tracking statistics, synthetic aperture radar (SAR), performance metrics
Scenario Generation
Airborne, ground-based and shipborne platforms, ground-truth trajectories, theater plots
Data Synthesis
Simulate radar sensors, generate signals, detections, and tracks, model propagation channels, clutter, target RCS, and micro-Doppler signatures
Signal and Data Processing
Create waveform libraries, estimate detection ranges, angles, and Doppler, perform clustering and tracking of detections, perform search and track
Algorithm Acceleration and Code Generation
Speed up simulations with GPU processing and generated C/C++ code
Radar Toolbox Supported Hardware
Support for third-party hardware, such as TI mmWave radar sensors
