Series Topic: Algorithms to Antennas
This article series is in the Antennas to Algorithms topic within our Series Library
In this ongoing series of articles, MathWorks' Rick Gentile (along with various contributors and co-authors) investigates the challenges associated with building today’s wireless systems and offers resources to aid development.
- Algorithms to Antennas: A Blog for 5G, Radar, and EW RF Engineers
- Beamforming to Improve Signal-to-Noise Levels and Achieve Higher Channel Capacity with MIMO Systems
- Achieve System Performance Goals with Less Hardware
- Designing an Antenna Array
- Understanding Subarray Tradeoffs in Large Antenna Arrays
- Modeling Mutual Coupling in Large Antenna Arrays
- Massive-MIMO Hybrid Beamforming
- Reducing Signal Distortions—PA Characterization with DPD
- Visualize Antenna-Array and SINR Patterns on a Map
- Generate Your Antenna Gerber Files from MATLAB
- Synthesizing an Antenna Array with Optimization Techniques
- Modeling Polarization in Radar and Wireless Systems
- Waveforms for 5G, 802.11ax, and NB-IoT
- Increasing Angular Resolution Using MIMO Radar
- Simulating Wideband Behavior in Wireless Communications and Radar Systems
- Calibration Techniques for Phased-Array Antennas
- Where Should I Locate My Radar?
- Modeling Micro-Doppler Effects
- Generating Waveforms for Wireless and Radar Systems
- Closing the Loop in Multifunction Phased-Array Modeling
- Radar Target Modeling
- Benchmarking Radar Cross Section
- Modeling Multistatic Radar Systems
- Train Deep-Learning Networks with Synthesized Radar and Comms Signals
- Model Your Way to Project-Level Success
- Classifying Radar Micro-Doppler Signatures
- Exploring Hybrid-Beamforming Architectures for 5G Systems
- Modeling Antennas Installed in the Presence of Large Platforms
- Analyze 5G Urban Scenarios with Ray Tracing
- Developing Beamformers for Phased-Array Systems
- Developing Direction-of-Arrival Algorithms for Phased-Array Systems
- Understanding LFOV Arrays and Wideband Scanning Arrays
- Develop and Test Algorithms on Commercial Radars—Moving from Simulation to Hardware
- 5G NR Beam Sweeping and Beam Refinement
- Tracking Space Debris with a Radar Network
- Modeling Air-Traffic-Control Radar Systems
- RF Fingerprinting for Trusted Communications Links
- Clustered-Delay-Line Channel Model with Ray Tracing
- Evaluating Radar Target Detectability
- Labeling Radar and Comms Signals for Deep-Learning Apps
- 5G Channel Estimation Using Deep-Learning Techniques
- Optimization Techniques for Phased-Array Synthesis
- Automotive Radar Modeling and Simulation
- Spectrum Sensing Using Deep-Learning Techniques
- Modeling 5G Antenna Elements and Arrays
- Three-Dimension Indoor Positioning Using IEEE 802.11az Waveforms
- Phased-Array Beam-Pattern Synthesis Using Deep-Learning Techniques
- Modeling a FMCW Long-Range Radar at Different Abstraction Levels
- Improve Radar Simulation Fidelity with Land and Sea Surface Models
- Simulate and Track Targets in Terrain-Based Scenarios