Python Developer тАв Physics Enthusiast тАв Future Innovator
My name is Abdullah Al-Jabir Aayan, although I was previously known as Md Afsun Rahenam — a name some still recognize me by. A few also refer to me as "Anuprash", which carries a more poetic undertone. I’m from Gaibandha, a small but meaningful place in northern Bangladesh. Currently, I am a Class 10 student at Gaibandha Government Boys High School. I'm 16 years old, and I consider myself a self-taught programmer with a particular inclination towards Python. I haven't released any public projects yet, and I don’t often talk about what I build — not because I don’t create, but because I prefer to let my skills develop quietly and naturally.
My interest in programming isn’t something I show off; it’s something I nurture in silence. Among all the programmers I've read about, Linus Torvalds stands out as my technical role model — not just for his creation of the Linux kernel, but for the mindset and philosophy he brought into the world of open-source software. Yet, beyond code and logic, my guiding light in life is Prophet Muhammad (SAW). I try to follow his values of honesty, patience, and discipline — not only in life but also in how I approach learning and creativity.
I spend a lot of time experimenting with code, solving problems that interest me, and gradually improving my thinking. I don’t rush after titles, recognition, or attention. Instead, I try to focus on mastering concepts that matter. I believe true learning happens when no one is watching — in the quiet hours, when curiosity leads, not competition. Though I’m still in the early stages of my journey, I’m building something within myself that I hope will have meaning in the long run.
I’m not here to impress, but to improve. Every day, I try to get a little better — not for others to notice, but for myself to grow. I don’t know exactly where this path will lead, but I do know that I want to keep walking it — one line of code at a time, one idea at a time, guided by both reason and purpose.
A Python-based quantum computing simulator that models quantum gates, entanglement, and basic quantum algorithms. Features visualization of quantum states and probability distributions.
Interactive web application for visualizing complex physics concepts including wave mechanics, electromagnetic fields, and particle dynamics with real-time parameter adjustment.
Machine learning powered study assistant that creates personalized learning paths, generates practice problems, and tracks progress using natural language processing.
Comprehensive tool for calculating satellite orbits, trajectory planning, and celestial mechanics. Includes 3D visualization and mission planning capabilities.
IoT-based home automation system with machine learning for energy optimization, security monitoring, and intelligent device control via mobile app and voice commands.
Real-time cryptocurrency market analysis platform with predictive modeling, portfolio optimization, and automated trading signals using advanced statistical methods.