Three Delay-Based Beamforming Algorithms with Implementation Examples

In fields such as sonar and radar systems, delay-based beamforming programs are extremely common and have broad practical applications. These implementations typically employ key algorithms including time-delay calculation using geometric configurations, phase alignment through interpolation methods, and beam steering via weighted summation techniques. The provided programs are fully operational and include simulation diagrams that visualize beam patterns, sidelobe suppression effects, and target localization accuracy. Each implementation contains commented code sections explaining the core signal processing workflow: from sensor array input processing to directional beam output generation. If you're interested in these beamforming techniques, we recommend downloading the packages to examine the real-time delay implementation methods, adaptive weighting algorithms, and performance optimization approaches demonstrated in the simulation results.