Description This project utilizes the Arduino IoT Cloud platform for IoT applications. It allows you to remotely monitor and control your Arduino devices over the internet. Please Note: This project ...

The main microcontroller board I chose for this project is the Arduino UNO R4 WiFi. A 12*8 LED matrix will display the current people count inside the area. Additionally, the built-in ESP32 will ...

What you’ll learn: Arduino’s new QWIIC-based UNO Plug and Make Kit is simple to use and can be up and running in the cloud in 10 minutes. A 48-MHz, 32-bit Arm Cortex-M4 from Renesas features ...

Upload the code to both the Arduino Uno R3 and the NodeMCU (ESP8266). Connect sensors to the Arduino Uno R3 and the water pump relay. Ensure both the Arduino Uno R3 and NodeMCU are powered on and ...

Arduino, the IoT development platform, has announced the full release of Arduino IoT Cloud - an end-to-end solution that makes building connected projects easier for makers, IoT enthusiasts and ...

Access the Arduino Cloud. You can do this by visiting the Arduino Cloud website. Connect your UNO R4 WiFi to your PC. This is the first step in setting up your device. Navigate to the Devices ...

The Arduino IoT Cloud allows users to manage, configure and connect not only Arduino hardware but also the vast majority of Linux-based devices – truly democratising IoT development.” Designed for ...

It allows you to connect more ‘things’, save more sketches, increase data storage on the cloud and access unlimited compilation times. The Create Professional plan is also aimed at businesses. You can ...

For those new to Arduino Cloud, it is an all-in-one IoT solution that empowers makers, IoT enthusiasts, and businesses to create, monitor, and control their IoT devices from anywhere in the world.