Analyzing the exoplanetary light curves (produced by the TESS and Kepler satellites) using statistical methods and potential applications of artificial intelligence to distinguish and finding exomoons.

Photometry of the variable stars with CCD and DSLR cameras using Python and MATLAB to generate lightcurves of the variable stars.

Simulation of the center of the light of the star-exoplanet system using the PSF and reflected starlight from the exoplanet.

Analyzing satellite orbits (position and velocity) in future using numerical methods with solving the satellite's stiff differential equation of motion.

Review and study and coding of the adaptive optics using closed-loop with deformable mirrors and wavefront sensors.

Study and simulation of the motion of the charged particles (solar winds and storms) in the Earth's magnetic field using 3 electrodynamic invariants and study of the Van Allen radiation belts.