Paper Key : IRJ************762
Author: Pritam Uday Patil,Ashish Avadhut Rane,Manthan Ramesh Suryavanshi,Vidyasagar Ravindra Sutar ,Shubham Santosh Vansale
Date Published: 20 Nov 2024
Abstract
In today's fast-paced world, making the most of available space is essential, particularly in crowded or busy areas. Chair parking or automated chair positioning systems have been developed to save space, enhance convenience, and improve accessibility. By integrating automation with mobile commands through microcontrollers like the Atmega328p, we can achieve precise control over movement and positioning. This project introduces a smart chair parking system that utilizes mobile commands and is powered by an Arduino-based Atmega328p microcontroller. It features Bluetooth communication for command input, motorized movement through a relay and gear motor, and obstacle detection using ultrasonic sensors. The goal of this project is to make seating arrangements easily adjustable, optimize space usage, and enhance accessibility.The chair parking system will respond to straightforward mobile commands: move forward, backward, left, right, or auto-align in a straight line while detecting obstacles at a distance of 50 cm. The proposed system includes a lithium-ion battery for power, a Bluetooth module for connectivity, and other necessary hardware. This setup allows for dynamic, easy, and efficient use in various settings, from classrooms to event venues and commercial spaces.