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