🚀 Progress Update
Our small ground robot is now successfully connected to an RC transceiver, giving it much greater range than Wi-Fi or Bluetooth. These wireless methods often lose connection at longer distances or outside line of sight, but the RC link provides a more reliable control.
Power up your robotics projects with 25KG Metal Gear Digital Servo Motor ⚙️
Featuring metal gears and support for 4.8–6.8V operation, it’s ideal for robotic arms, RC vehicles, and heavy-duty DIY builds.
#Robotics #ServoMotor #EmbeddedSystems
🚁 Object tracking with a monocular camera using ROS2
Workflow:
Camera → Object Detection → Tracking Node → Control → RViz
Single camera.
Real-time detection.
Autonomous following.
Built for edge AI deployment on drones.
#ROS2 #Robotics #DroneTech #ComputerVision #EdgeAI
Robotics kit assembly ✅
Raspberry Pi 4 + battery system fully mounted and integrated.
Next up: autonomous navigation algorithms 🤖
Working on localization, sensor fusion, path planning, and obstacle avoidance to bring real autonomy to the robot.
#AutonomousRobot @raspberrypi.com #EmbeddedSystem
The plan is to first get things working with sonar, then ditch the ultrasonic sensor and switch entirely to vision-based navigation. The goal? See how far computer vision alone can take us, and how it stacks up against traditional sensor.
New project. New excitement. New robot. 🤖🔥
We’re building an autonomous Raspberry Pi–based robot, starting with ultrasonic sensing and a Pi Camera for navigation and obstacle avoidance.
FOLLOW and LIKE for the updates.
Did you know also that SpeedyBee flight controller can be connected to a Raspberry Pi and used for your robotics project? 🤯🤖
The image shows a simple UART connection:
TX → RX
RX → TX
GND → GND
This lets Raspberry Pi handle AI, vision, ROS, while the flight controller manages real-time control.
Pixhawk + Raspberry Pi Zero 🚁
A classic companion computer setup for flying robots.
UART via TELEM1 + stable 5V BEC power lets the Pi run MAVROS, while Pixhawk handles flight control.
Perfect for:
🤖 ROS-based autonomy
👁️ Computer vision
🧠 AI onboard drones
#ROS #UAV #Pixhawk #RaspberryPi #Robotics
The L298N motor driver is still a robotics classic 🤖
✔️ Drives 2 DC motors
✔️ Direction + speed control via PWM
✔️ Easy to use with Arduino/ESP32
✔️ Perfect for line followers & rovers
Great for learning motor control fundamentals before moving to advanced drivers.
#Robotics #Arduino #EmbeddedSystems
