🛰️ Streamline antenna design with a physics-constrained deep learning framework for rapid and accurate patch antenna optimization.

IARU R1 VHF and up bandplan

CPW resonator fitting in Python: extract Qint and Δf/f0, plot TLS/qp loss channels, save best-fit params; includes examples and PNG outputs.

Snow Microwave Radiative Transfer model to compute thermal emission, backscatter and altimetric waveform from snowpack, sea-ice, frozen lakes and other cryospheric environments

The μMiniwave project is a project for the first open source "smart" microwave. I currently don't have any hardware for it, just the plans.

Functions and data structures for metallic waveguides

Frequency domain, multi-tone harmonic balance, simulation of scattering parameters and noise in nonlinear circuits containing Josephson junctions. Scattering parameter conversion and interconnection.

Physics-constrained deep learning framework for real-time inverse design of patch antennas. Achieves sub-millimeter accuracy and 20x faster predictions than traditional EM simulations. Includes beginner-friendly Google Colab demo.

Read/write Ticra compatible files, parse TOR files, generate/evaluate SWE expansions, and more

Water_by_TIP5P_Molecular_Dynamics_Simulation

A small Toit library to read the RCWL0516 Microwave Movement Sensor, and execute callbacks on detect/clear.

RF/Microwave simulations and projects

Design and simulation of a 4.5 GHz Low-Noise Amplifier (LNA) using NI AWR Microwave Office.

HomeAssistant custom integration for SmartThinQ LG devices configurable with Lovelace User Interface fork for bug fixes and feature development

HomeAssistant custom integration for SmartThinQ LG devices

Export Qucs RF schematics to KiCad layouts & OpenEMS scripts

This repository contains MATLAB code for remotely controlling a Vector Network Analyzer (VNA) to perform measurements on a head phantom equipped with an antenna helmet. The project aims to collect extensive data across multiple stroke configurations and phantom inclinations.

Designed a microstrip patch antenna in HFSS and added a defected ground structure (DGS) to suppress unwanted resonance at 3.77 GHz. The DGS improved performance by acting as a bandstop filter. Gain increased slightly, and the radiation became more efficient and focused.

Parts of my thesis with the title "Analysis and design of holographic metasurfaces and study of their applications in wireless mobile telecommunication at microwave and millimeter frequencies"

This project models and simulates the behavior of electromagnetic (EM) waves in an ideal free space medium using MATLAB. It demonstrates the transverse nature of electric and magnetic fields as they propagate without attenuation, following Maxwell’s equations.