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Wireless Hand Gesture Control Car Diy Project For Science/Engineering Student's
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Wireless Hand Gesture Control Car Diy Project For Science/Engineering Student’s

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  • 🤖 Gesture-Controlled Movement – Control the car using simple hand tilts (forward, backward, left, right, stop).

  • 📡 Wireless Communication – Uses NRF24L01 modules for long-range and stable wireless data transfer.

  • 🎮 No Remote Needed – Your hand becomes the controller with an ADXL335 accelerometer sensor.

  • 🧠 Arduino Nano Powered – Smart and compact microcontroller handles gesture detection and motor control.

  • 🔄 Real-Time Response – Instant reaction to your hand gestures for smooth driving experience.

  • 🛠️ Easy DIY Build – Simple wiring and coding make it a great hands-on learning project.

  • ⚙️ L293D Motor Driver – Efficiently controls the DC motors for accurate directional control.

  • 🔋 Battery Powered – Fully portable and ready to move with lightweight power sources.

  • 🎓 Perfect for Students – Ideal for science fairs, engineering mini-projects, and robotics competitions.

  • 🌱 Future-Ready Base – Easily upgrade to Bluetooth, obstacle avoidance, or voice control.

3,199.00 6,499.00

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The Auto-Botix is an innovative and engaging DIY wireless hand gesture-controlled car project, specially designed for science and engineering students passionate about robotics, electronics, and automation. This project introduces a creative way to control a robotic vehicle using hand movements, leveraging the power of wireless communication and motion sensing technology.

🔧 Project Overview

The Auto-Botix car is an intelligent robotic vehicle that responds to hand gestures, eliminating the need for traditional remote controllers or mobile apps. By using an accelerometer sensor mounted on the user’s hand and a wireless transmission system, the vehicle interprets the tilt and orientation of the hand to move forward, backward, left, right, or stop. It’s an excellent blend of mechanical design, embedded systems, sensor technology, and wireless communication.

This project helps students understand the working principles of sensors, microcontrollers, and motor drivers while building their practical skills in hardware interfacing and embedded programming.

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Weight 500 kg
Dimensions 30 × 18 × 8 cm

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