Cosmic Voyage
"This comet will return again in the year 1758. The same celestial body
will visit us again and again, perpetually in a constant orbit."
— Edmond Halley
"This comet will return again in the year 1758. The same celestial body
will visit us again and again, perpetually in a constant orbit."
— Edmond Halley
About the Project
Inspired by Halley's accurate prediction of a comet’s return using Newton's Principia, this project explores the intricate dynamics of Orbital Evolution, Gravitational Effects, and Time-Series Forecasting for celestial observation opportunities.
By combining cutting-edge hardware with precise mathematical models, we address complex challenges in orbital mechanics, setting the stage for breakthroughs in celestial navigation and space exploration.
This project analyzes Halley's Comet's orbital changes using both historical and simulated data. Leveraging advanced machine learning models, it classifies orbital perturbations and predicts visibility conditions by examining gravitational influences and time-series data. Our research enhances the understanding of celestial mechanics while improving forecasting accuracy for astronomical events.
We are seeking passionate individuals who are driven to explore the mysteries of space and make groundbreaking contributions to celestial navigation.
A curiosity-driven mindset and innovative thinking.
A strong foundation in mathematics, physics, or computer science.
Proficiency in programming or data analysis tools.
A collaborative spirit and enthusiasm for learning.
Join us as we solve complex challenges in orbital mechanics, celestial navigation, and pioneering exploration!
Be part of a revolutionary journey into the cosmos. Contribute your skills, ideas, and passion to advance the frontiers of space exploration.