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01/01/2026
That image of a Bangladeshi astronaut stepping onto the moon isn't just a fantasyβit's the direction we are heading. As someone deeply involved in aerospace engineering and UAV development, I see the steps we need to take to make this a reality.
Here is how we bridge the gap between our dreams and the stars:
* **The Technology:** We are already building autonomous drones and guidance systems using Python and ROS2. The same logic used to navigate a quadcopter through a complex environment is the foundation for spacecraft navigation.
* **The Hardware:** From Pixhawk flight controllers to Raspberry Pi telemetry units, the hardware we work with today in our university labs is the precursor to the avionics that will carry us to space.
* **The Spirit:** Just like in the Math Olympiads where we solve complex problems with limited resources, space exploration requires maximum efficiency and precision.
Itβs not just about the hardware; itβs about the mindset. We need to start thinking globally and aiming beyond the sky. As an engineer, I can tell you that the physics are the same; it's just the scale that changes.
Let's build the tech that gets us there.
01/01/2026
The Sky is Their Playground: The Thrill of RC Plane Flying Ever looked up and seen a small plane performing perfect loops and turns and wondered how it works? That's the world of RC (Radio Controlled) plane flying, a hobby that combines skill, engineering, and a love for the skies.
Here's a quick intro:
β’ What is it? Pilots use a handheld transmitter to send radio signals to a receiver inside the plane. This tells the control surfaces (like the ailerons, elevator, and rudder) to move, allowing the pilot to control its direction, pitch, and roll.
β’ Types of Planes: From simple, durable foam planes designed for beginners to high-speed aerobatic models and scale replicas of real aircraft for experienced pilots, there's a plane for every skill level.
β’ Why it's so popular: It's more than just flying. It's about the challenge of mastering control, the satisfaction of building or modifying your aircraft, and the pure joy of seeing your own creation soar through the air. Itβs a true test of focus and hand-eye coordination.
π Iβve just completed my Drone Building Project and uploaded a full tutorial video!
In this video, I shared how I built a my drone β from simulation setup to physical flight β and explained the mechanism, firmware setup, and control system using Pixhawk and FlySky i6.
𧩠Drone Specs:
1.Pixhawk Flight Controller
2.FlySky i6 Transmitter & Receiver
3.1400KV Brushless Motors (3S)
4.30A ESCs
5.8-inch Propellers
6.1500mAh Li-Po Battery
7.Safety Switch, Buzzer & Power Module
π Through this project, I learned how to integrate hardware, software, and control systems β a complete experience in drone physics, simulation, and real-world testing.
π₯ Watch the full tutorial here π https://www.youtube.com/-programmer
π Connect with me:
π Portfolio: https://abs-emon.github.io/
π» GitHub: https://github.com/ABS-EMON
πΌ LinkedIn: https://www.linkedin.com/in/abu-bakkar-siddique-emon-215a99390/
π¦ X: https://x.com/abs_emon11
π· Instagram: https://www.instagram.com/roberemon/
π Facebook: https://web.facebook.com/profile.php?id=100066781024743
π» YT: https://www.youtube.com/-programmer
π―
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