Key Components Microcontroller: Arduino-based (e.g., ESP32-S3 Mini or STM32 if needed for advanced real-time tasks). Handles sensor data processing and decision-making. Sensors for Environmental ...

Key Components Microcontroller: Arduino-based (e.g., ESP32-S3 Mini or STM32 if needed for advanced real-time tasks). Handles sensor data processing and decision-making. Sensors for Environmental ...

The Maker’s Pet Robotics Kit, a DIY ESP32-powered robot supporting Arduino and ROS2. With LiDAR-based navigation, obstacle detection, and autonomous movement, it's perfect for learning robotics and ...

If you are interested in building your very own mini DIY LiDAR sensor for less than $40, capable of detecting objects in a 360° area, you may be interested in a new Arduino Instructables project ...

Lidar, Arduino, Raspberry Pi, Laser, ToF and more Even without being a specialist in the techniques used, the combination of a lidar, whether fixed, oscillating or rotating, with an Arduino (or a ...

LIDAR systems are quickly becoming a dominant player for anything needing to map out or navigate a complex 3D space, from self-driving cars to small Arduino-powered robots.

Connecting Arduino to Processing Introduction So, you’ve blinked some LEDs with Arduino, and maybe you’ve even drawn some pretty pictures with Processing - what’s next? At this point you may ...

The age of rapid prototyping is upon us, with companies such as MikroElektronika, Adafruit, and Arduino making it easier for designers to bring concepts together in an impressively short period of ...

At the moment, autonomous driving requires a lot of sensors: cameras, lidar, etc. It takes a lot of time and resources to process all the input data from these sensors. In this paper, we reduce the ...