AI-based Antenna Design and RF Optimization
Integration of surrogate model AI Routine
Explore the integration of the SADEA surrogate model-based AI routine into MATLAB, which I achieved through collaboration with pioneering scientists. This integration dramatically cut optimization time, and I further bolstered its utility by developing accessible APIs for command line and app use, receiving high praise for enhancing customer satisfaction in wireless antenna optimization.
Genetic Algorithm Optimization for miniaturization
Learn about the successful design of a complete application for a billion-dollar client that leveraged genetic optimization for miniaturizing patch antennas, effectively halving the required antenna space. This project was the culmination of my cross-functional collaboration, driving innovation in antenna design technology.
Distributed Circuits Simulator App Development
Take a look at the creation of the Distributed Circuits Simulator app, designed to expedite RF frontend diagnostics. I incorporated an extensive debugging infrastructure that streamlined issue detection, showcasing my commitment to delivering efficient and sophisticated diagnostic tools.
5G Array Simulation for MIMO and ESA
Delve into the development of a user-centric MATLAB application that simulates antenna arrays for MIMO systems and ESA, substantially cutting production time by half. The intuitive end-to-end GUI empowers users with drag-and-drop functionality, making complex simulations straightforward and saving significant costs by forgoing the need for anechoic chambers.
Legacy Infrastructure Transition & Improvement
Discover the innovative restructuring of the Antenna simulation MATLAB app, where my expertise led to a 70% enhancement in both memory and execution efficiency. Through meticulous analysis and optimization of MVC design pattern, and effective change management strategy, I elevated the app's full-stack development, ensuring high design standards and adherence to SOLID principles.
