⚡ PATENTED TECHNOLOGY

Self Propulsive Auto Landing Machine Launch, Land, Repeat

World's fastest flight computer for autonomous model rocket landing.
Low-cost, dual-propulsive, fully autonomous TVC system.

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FASTEST

Flight Computer

In the World

🎯

100%

Autonomous

Self-Landing

🔧

TVC

Thrust Control

Delta Inspired

📜

PATENT

Innovation

Secured

Explore Technology → 📄 View Full Project

Project Mission

We are a team determined to build an innovative project. In a short span of time, we managed to build a low-cost, fast, dual propulsive, fully autonomous, TVC-based self-landing model rocket.

Our goal is to foster innovation in final-year engineering projects and celebrate hands-on learning as a pathway to shaping the future of technology.

🎯 Inspired by SpaceX Falcon 9 landing technology

Key Technologies

Advanced engineering systems working in perfect harmony

🖨️

3D Design & Printing

Full rocket model designed in SolidWorks and 3D printed using PLA for rapid prototyping and lightweight construction.

SolidWorks PLA Printing CAD Design

💻

Flight Computer & PCB

Custom PCB design housing the world's fastest flight computer for landing model rockets. Real-time data processing and control.

Custom PCB ARCHER World's Fastest

🎮

TVC System

Delta TVC inspired dual-holding, detachment-based Thrust Vector Control system for precise flight path correction.

Delta TVC R2 Dual Holding Detachment Based

📊

MATLAB Simulation

Advanced flight path simulation analyzing position, force, and velocity profiles for optimal landing trajectory.

MATLAB Path Analysis Optimization

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ARCHER Architecture

Integral flight computer component showcasing advanced architecture, design process, and multiple potential applications.

ARCHER Modular Scalable

🔥

Propellant Analysis

In-depth analysis of solid propellants, motor classes, and operating principles for optimal thrust delivery.

Solid Fuel Motor Class Analysis

System Architecture

How S.P.A.L.M. achieves autonomous landing

Launch Phase

Solid propellant ignition
Initial thrust vectoring

→

Ascent & Apogee

Real-time telemetry
Peak altitude detection

→

Controlled Descent

TVC activation
Path correction

→

Auto Landing

Thrust modulation
Soft touchdown

Hardware Specs

Material: PLA 3D Printed
Control: Custom Flight Computer
Actuators: High-torque Servos
Sensors: IMU, Barometer
Power: LiPo Battery

Software Stack

Design: SolidWorks CAD
Simulation: MATLAB
Firmware: Custom C/C++
Testing: Test & Functional Code
Control: PID Algorithms

Key Features

Speed: World's Fastest Computer
Cost: Low-Budget Build
Autonomy: 100% Self-Landing
Innovation: Patented Design
Precision: TVC-based Control

📜 PATENT SECURED

Innovation Protected

The S.P.A.L.M. project represents a significant advancement in autonomous rocketry. Our innovative approach to controlled flight and landing capabilities, combining advanced TVC systems with custom flight computer technology, has been recognized and protected through patent filing.

✓ Novel TVC detachment mechanism (Delta TVC R2)

✓ World's fastest landing flight computer (ARCHER)

✓ Dual propulsive autonomous system

✓ Low-cost scalable design approach

Project Impact

Inspiring the next generation of aerospace engineers

🎓

Educational Excellence

Demonstrates hands-on learning as the best pathway to technological innovation in final-year engineering projects.

💡

Innovation Driver

Proves that groundbreaking aerospace technology can be developed with limited budgets and maximum creativity.

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Future Applications

Paves the way for autonomous delivery systems, research platforms, and educational rocketry programs worldwide.