A simulation of a typical smart city made using arduino and some important components
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Updated
Nov 6, 2021 - C++
A simulation of a typical smart city made using arduino and some important components
Un rover 2WD con Raspberry Pi Pico W comandado por WiFi
The Obstacle Avoidance _ Ein Arduino-basierter autonomer Roboter, der Hindernissen ausweicht und sich selbst am Fallen hindert.🤖
This library is designed to work with L2938 H-bridge based motor shields.
Veículo controlado comandos de celular enviado via BLE (Bluetooth Low Energy), o controlador é compatível com Android/IOS desenvolvido no App Inventor. O veículo é equipado com um esp32 que já vêm com BLE integrado e um driver responsável por acionar os motores DC.
Line Follower Robot Design Simulation on Proteus
It can follow humans or moving objects with the help of HC-SR04 Ultrasonic Sensor, Can be used as a nanny bot for kids or to carry heavy baggage without support.
A bot which can move without colliding with any walls with the help of HC-SR04 ultrasonic sensors.
The SumoCode repository contains the source code for our sumo bot, which is designed for the upcoming sumo robot competition.
This project introduces a Line Following Robot that utilizes Arduino technology and features a sophisticated system of 5 sensors. The robot is specifically designed to follow a predefined path or line on the ground, demonstrating the integration of sensor data for precise navigation.
This analog wall follow robot is developed for the semester 3 project under EN2091: Laboratory Practice and Projects.
Automatic door using TSSP58038 proximity sensor, ATMega8-16P, L298 motor driver, and servo
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