2D floorplan coverage raytracing simulator for 60GHz IEEE 802.11ay-based Wi-Fi - Project for ELEC-H304 (EPB-ULB)
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Updated
Oct 23, 2024 - C++
2D floorplan coverage raytracing simulator for 60GHz IEEE 802.11ay-based Wi-Fi - Project for ELEC-H304 (EPB-ULB)
In questo progetto utilizzeremo una scheda Arduino UNO e un dispositivo chiamato fototransistor per studiare le onde elettromagnetiche, in particolar modo quelle della luce visibile. Esploreremo alcune delle applicazioni di rilevamento e misurazione della luce e anche tecnologie di comunicazione e radar.
MATLAB implementation of the Huygens-Fresnel principle for the calculation of the scattering farfield pattern produced from the illumination of a finite-aperture rectangular metasurface.
Electromagnet Motion Explorer is an innovative project aimed at studying pendulum damping motion through LED modeling and the development of a user-friendly desktop application. This project serves as a comprehensive study tool, providing intricate mathematical models, accurate simulations, and the integration of machine learning models.
Real-time simulation of electromagnetic wave propagation caused by accelerating particle.
Simulate the propagation of radio waves from a thin 2-D wire of arbitrary shape.
XENON: A matriX-based dispErsioN relatiON solver for plasma physics
Web application that displays conductivity and permittivity graphs of a number of tissues. Allows user to manipulate tissue data using the Debye model in order to accurately simulate the propagation of an electromagnetic wave through the human body. The purpose is to help in the development of healthcare devices that use electromagnetic waves.
Visualisation of phase and group velocity, standing waves, circular polarisation and reflection coefficients for parallel and perpendicular polarisation
Data visualization of the electromagnetic spectrum
This is the electromagnetic field analysis program for spherical particles. The radiation force acting on the sphere can be analyzed. This is based on Mie scattering theory.
This is the electromagnetic field analysis program for focused beams. This program can analyze plane wave, focused plane wave, focused radial-azimuthal polarization beam.
Electromagnetic wave simulation using Apple ARKit
This is the three-dimensional electromagnetic field analysis program for arbitrary objects irradiated by arbitrary beams. This is the extension of "bem3_emf_b1" using iterative solution. This program can analyze multiple scattering between objects with less memory than "bem3_emf_b1".
This is the three-dimensional electromagnetic field analysis program for arbitrary object irradiated by arbitrary beams. The radiation force acting on the object can be analyzed. This is based on boundary element method, the own developed numerical solution is used.
This is the electromagnetic field analysis program for multi-layered spherical particles. The radiation force acting on the sphere can be analyzed. This is based on Mie scattering theory, the own developed method is used.
This is the two-dimensional electromagnetic field analysis program for one-dimensional periodic arrangement objects irradiated by a TM plane wave (transverse magnetic wave). This is based on the boundary element method, the own developed numerical solution is used.
This is the two-dimensional electromagnetic field analysis program for one-dimensional periodic arrangement objects irradiated by a TE plane wave (transverse electric wave). This is based on the boundary element method, the own developed numerical solution is used.
This is the two-dimensional electromagnetic field analysis program for arbitrary objects irradiated by a TM plane wave (transverse magnetic wave). This is based on the boundary element method, the own developed numerical solution is used.
This is the two-dimensional electromagnetic field analysis program for arbitrary objects irradiated by a TE plane wave (transverse electric wave). This is based on the boundary element method, the own developed numerical solution is used.
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