Using an Active Buzzer and an Ultrasonic Sensor to create a proximity alarm from live data as part of IoT

Authors

Presenter(s)

John Sheehan

Comments

Presentation: 10:00 a.m-12:00 p.m., Kennedy Union Torch Lounge

Files

Description

The aim of this project is to design and develop a proximity alarm system using an ultrasonic sensor and an active buzzer, controlled by an Arduino Elegoo microcontroller. The proximity alarm system will be capable of detecting the distance between the sensor and an object in its vicinity and produce an alarm sound through the active buzzer when the object approaches a set distance limit. The project will involve the design of a simple circuit consisting of the sensor and buzzer, which will be interfaced with the Arduino Elegoo board. The code will be written in Arduino IDE and will include the necessary functions to read the sensor's data and generate an alarm sound through the buzzer. The project's overall goal is to demonstrate the application of an ultrasonic sensor and an active buzzer to create a proximity alarm system using Arduino technology, which can be used in various fields, such as security systems and robotics.

Publication Date

4-19-2023

Project Designation

Course Project 202310 ECE 420 01

Primary Advisor

Andrew Rettig, Ryan Lambdin, Ruthvik Kolli

Primary Advisor's Department

Electrical and Computer Engineering

Keywords

Stander Symposium, School of Engineering

Recommended Citation

"Using an Active Buzzer and an Ultrasonic Sensor to create a proximity alarm from live data as part of IoT" (2023). Stander Symposium Projects. 3001.
https://ecommons.udayton.edu/stander_posters/3001