Authors :
Adarsh Eknath Nimbolkar; Vaishnavi Jaydeep Gawande; Aniket Madhukar Sakharkar; Kiren Eknath Nanware; Durgadas Kailas Palakudtewar; S.S.Rathod
Volume/Issue :
Volume 8 - 2023, Issue 12 - December
Google Scholar :
http://tinyurl.com/3fh4tkfa
Scribd :
http://tinyurl.com/5n9y35s6
DOI :
https://doi.org/10.5281/zenodo.10423750
Abstract :
The Smart Car Parking System based on
Arduino is a technologically advanced solution designed
to optimize and streamline the traditional parking
experience. This system employs Arduino
microcontrollers to create an intelligent and efficient
parking management system. The key components of the
system include sensors, actuators, and a central
processing unit. Sensors are strategically placed in
parking spaces to detect the presence of vehicles. When a
vehicle enters a parking space, the sensor relays
information to the Arduino controller, which then
communicates with the central processing unit.
The central processing unit utilizes real-time data
to manage parking space availability and guide drivers
to vacant spots. Through a user-friendly interface,
drivers can access information about available parking
spaces, reducing the time spent searching for a spot.
Additionally, the system incorporates LED indicators or
other visual cues to guide drivers directly to open
parking spaces, minimizing congestion and optimizing
space utilization.
This Smart Car Parking System enhances overall
efficiency, reduces traffic congestion, and improves the
overall parking experience for both drivers and
operators. The simplicity and effectiveness of this
Arduino-based solution make it a promising technology
for modernizing parking facilities and contributing to
smarter urban infrastructure.
Keywords :
Arduino UNO, IR Sensor, Servo Motor, LCD Display.
The Smart Car Parking System based on
Arduino is a technologically advanced solution designed
to optimize and streamline the traditional parking
experience. This system employs Arduino
microcontrollers to create an intelligent and efficient
parking management system. The key components of the
system include sensors, actuators, and a central
processing unit. Sensors are strategically placed in
parking spaces to detect the presence of vehicles. When a
vehicle enters a parking space, the sensor relays
information to the Arduino controller, which then
communicates with the central processing unit.
The central processing unit utilizes real-time data
to manage parking space availability and guide drivers
to vacant spots. Through a user-friendly interface,
drivers can access information about available parking
spaces, reducing the time spent searching for a spot.
Additionally, the system incorporates LED indicators or
other visual cues to guide drivers directly to open
parking spaces, minimizing congestion and optimizing
space utilization.
This Smart Car Parking System enhances overall
efficiency, reduces traffic congestion, and improves the
overall parking experience for both drivers and
operators. The simplicity and effectiveness of this
Arduino-based solution make it a promising technology
for modernizing parking facilities and contributing to
smarter urban infrastructure.
Keywords :
Arduino UNO, IR Sensor, Servo Motor, LCD Display.