CS.55 – Breathe Easy: Arduino-Powered Alcohol Testing Device
Team Members Heading link
- Ricardo Gonzalez
- Raudel Vargas
Project Description Heading link
Breathe Easy is an Arduino-powered alcohol testing device that promotes responsible drinking and prevents accidents caused by drunk driving. It uses an alcohol sensor and an Arduino microcontroller to analyze the breath sample and calculate the blood alcohol content (BAC) reading. The device is calibrated to match the legal BAC limit for a specific region or country, ensuring accurate and reliable results. The device features an LCD screen and LED lights that turn on based on the amount of alcohol present in the breath sample. The LCD screen displays the BAC reading, providing an instant indication of the individual’s level of intoxication. The LED lights on the device make it easier for users to understand their level of intoxication, even in low-light conditions. The LED lights on the device can also be customized to indicate different levels of intoxication, providing a more intuitive and user-friendly interface. Breathe Easy is customizable and easy to use. The open-source nature of the Arduino platform allows users to modify the code and add features such as real-time monitoring, data logging, and alarms. The device is portable and can be used in a variety of settings, including bars, parties, and public events. Breathe Easy promotes responsible drinking by providing individuals with a tool to monitor their alcohol consumption and avoid driving under the influence. It also helps event organizers to prevent underage drinking and monitor alcohol consumption at public events. Law enforcement agencies can use it to detect drunk drivers and ensure public safety. In conclusion, Breathe Easy is an accurate and reliable Arduino-powered alcohol testing device that promotes responsible drinking and prevents accidents caused by drunk driving. Its LCD screen and LED lights provide accurate and intuitive indications of blood alcohol content, making it a valuable tool for individuals, event organizers, and law enforcement agencies.