TY - GEN
T1 - Smart Automated Parking System Using RFID
AU - Sanketh,
AU - Reddy, P. Rithvik
AU - Akhileswar,
AU - Naveen, Soumyalatha
N1 - Publisher Copyright:
© 2024 American Institute of Physics Inc.. All rights reserved.
PY - 2024/2/13
Y1 - 2024/2/13
N2 - The developing urbanization joined by progressively clogged metropolitan spaces and metropolitan automobiles tremendously developed its number, has brought about requirement for defended pull up spots of schools, malls organizations etc. With advanced technologies and low-cost smart devices to in line with the smart cities mission to improve the economic growth as well as to improve the quality of people life in this paper, we made an attempt to utilize the technology in an innovative way for secure smart parking without human intervention. The proposed framework includes gadgets such as RFID readers and labels, servo motor as an entryway, PCs, operating system which is programmed code and light-emitting diodes. Therefore, the framework is utilized to take the working boundaries and sparkling Light-Emitting Diodes in hand grip for various purposes. This proposed design is compatible with any kind of environment. The proposed system enables only the authorized member to access the parking spaces. The proposed system also includes NodeMCU which is an open source IOT platform which plays important role in transferring data. When the vehicle is read by the RFID scanner, the NodeMCU sends the information about slot vacancy and a slot will be allotted to the user by the Arduino microcontroller and that will be displayed on the LCD Screen. This framework can forestall burglary of the vehicle in the school. Individuals from the Members of the system including students can have a sense of safety for their vehicles. Automated entry, exit management system for registered vehicle users will also enables safety of individual user's vehicle.
AB - The developing urbanization joined by progressively clogged metropolitan spaces and metropolitan automobiles tremendously developed its number, has brought about requirement for defended pull up spots of schools, malls organizations etc. With advanced technologies and low-cost smart devices to in line with the smart cities mission to improve the economic growth as well as to improve the quality of people life in this paper, we made an attempt to utilize the technology in an innovative way for secure smart parking without human intervention. The proposed framework includes gadgets such as RFID readers and labels, servo motor as an entryway, PCs, operating system which is programmed code and light-emitting diodes. Therefore, the framework is utilized to take the working boundaries and sparkling Light-Emitting Diodes in hand grip for various purposes. This proposed design is compatible with any kind of environment. The proposed system enables only the authorized member to access the parking spaces. The proposed system also includes NodeMCU which is an open source IOT platform which plays important role in transferring data. When the vehicle is read by the RFID scanner, the NodeMCU sends the information about slot vacancy and a slot will be allotted to the user by the Arduino microcontroller and that will be displayed on the LCD Screen. This framework can forestall burglary of the vehicle in the school. Individuals from the Members of the system including students can have a sense of safety for their vehicles. Automated entry, exit management system for registered vehicle users will also enables safety of individual user's vehicle.
UR - https://www.scopus.com/pages/publications/85185772557
UR - https://www.scopus.com/pages/publications/85185772557#tab=citedBy
U2 - 10.1063/5.0184546
DO - 10.1063/5.0184546
M3 - Conference contribution
AN - SCOPUS:85185772557
T3 - AIP Conference Proceedings
BT - AIP Conference Proceedings
A2 - Balamuralitharan, S.
A2 - Begum, Naziya
A2 - Iyer, Sailesh
A2 - Kumar, Anuj
PB - American Institute of Physics Inc.
T2 - 1st International Conference on Engineering, Medicine, Management, Arts and Sciences 2021, EMMA 2021
Y2 - 29 December 2021 through 31 December 2021
ER -
