Dense Matrix Market

Repository for calculating rectangular, circular, and triangular patch antenna dimensions

Open Source Vivaldi Antipodal Antenna Design for 4G/5G Application

Yagi Uda Pro calculate Yagi antenna with 3D printable parts

This repository contains the coursework for "Antenna Theory and Design for Wireless Communications". It includes a comprehensive report on the design and testing of a microstrip patch antenna and a MATLAB script demonstrating the exploration of phased array antennas.

This is a antenna length calculator in C++

Open Source Patch Antenna Design for Wifi Application

Capacitor Calculator for Birdcage RF Coil Design for MRI

Designed a Dual-band 8 antenna MIMO system for 5G mobile phones using ANSYS HFSS Software. Proposed a dual-band, which can cover all the 5G N77, N78 and N79 bands. Produced the desired SWR and Antenna Waveport outputs.

Bachelor's thesis on the design and simulation of an implantable antenna for microwave hyperthermia

Altair CADFEKO source files for the simulation for the following: Half wave dipole , Half wave dipole with reflector, helical, horn, monopole, Yagi Uda and Narrowband Patch antenna designs.

My personal portfolio and place to share some of the many different projects I've done.

This project demonstrates a design methodology for optimizing high-quality communication between base stations and clients through enhanced signal-to-noise ratio (SNR). It leverages linear phased array antennas to improve beamforming, enabling precise signal targeting and minimizing interference. This focuses on modern wireless communication system

Antenna theory tools.

Rotary WARC Band (30, 17, 12m) dipole antenna. Constructed using alu tubes and utlizing common feed point method for all bands

Two dimensional optimisation algorithm using the Cross Entropy Method. Data is iteratively fitted to a Beta Distribution in the algorithm.

Quick class-based restructure + library updates. Has CLI and GUI branches

Repository containing everything related to the antenna designed through the H10 season.

This repository showcases the design and simulation of a compact RFID antenna operating at 870 MHz using a meandering technique. The project was aimed to improve power transfer efficiency and reduce the antenna size while maintaining performance.

This project presents the design and simulation of a compact dual-band microstrip antenna for implantable biomedical devices, operating at 0.91 GHz and 2.45 GHz. The antenna is optimized for low return loss, SAR compliance, and efficient wireless communication within human tissue. Kindly have some audacity to ask for permission before copying .