MIDI over Bluetooth Low Energy (BLE-MIDI) 1.0 for Arduino

Arduino Nano 33 BLE Sense Code Collection

Repository holding code corresponding the information on the new "Arduino Nano 33 BLE" board as it's project page.

To monitor gait patterns to detect freezing of gait. Done as part of the Singapore Science Mentorship Programme + CS4131 module + extended.

This repo contains all the necessary files to build a MNIST TinyML application, that works with an OV7670 camera module and TFT LCD module.

Arduino Library for Pixel and Play

ROS2 and micro-ROS integration with BLE Transmission of IMU data from Arduinos to aid robotic apple-picking models

This repository showcases different methods to create a wireless communication between the Arduino 33 BLE/IoT boards and a PC.

Simple comparison of the onboard Nano 33 BLE sensors and some external temperature and humidity sensors.

WIP Library for supporting Zigbee on Arduino devices like the Arduino Nano 33 BLE and Sense

Este repositorio presenta una variedad de proyectos que cubren aspectos fundamentales de la electrónica moderna, desde el uso de microcontroladores hasta la implementación de comunicaciones inalámbricas y el desarrollo de firmware. Cada proyecto aborda desafíos específicos y tecnologías relevantes.

This repository contains code written on Arduino Nano 33 Ble Sense which acts as a peripheral for Android projects that use Bluetooth LE to receive these data.

An experimental open hardware project for early notification about approaching thunderstorm activity

Repo to learn about IMU sensors. Platforms Arduino Nano 33 BLE Sense and ESP32

Arduino based table tennis shot predictor. Prediction is made in terms of probability, where the 4 type of gestures are assigned a probability. It can also be viewed as an accuracy score on your intended gesture if your training data is accurate enough.

A circuit board to adapt 3.3V Arduino Nano boards the the Arduino UNO form factor.

Control a fan speed by heart rate

(Arduino code) - RehTracker is my Master's thesis project at SDU, Odense, DK.

Practical work developed for the subject internet of things/embedded systems. My Replenisher is a complete end-to-end application, ranging from TinyMl with arduino nano 33 ble, communication with ESP32 to a mobile application that embodies the entire final scope.

Trivial example of reading the internal NRF52840 temperature