International Research Journal of Engineering and Technology (IRJET)
e-ISSN: 2395-0056
Volume: 10 Issue: 08 | Aug 2023
p-ISSN: 2395-0072
www.irjet.net
ARDUINO BASED CAR PARKING SYSTEM USING WOKWI SIMULATOR Shraddha Trivedi ---------------------------------------------------------------------***--------------------------------------------------------------------server utilising wireless communication protocols, the Abstract - The Arduino Car Parking System Using IoT is a smart parking solution designed to alleviate the challenges associated with urban parking management. This system integrates Arduino microcontrollers and Internet of Things (IoT) technologies to create an efficient and automated parking management system. The proposed system utilizes ultrasonic sensors to detect the availability of parking spaces and relays this information to a central server through a wireless communication network. Users can access real-time parking space availability data via a dedicated mobile application or a web interface. The system not only optimizes parking space utilization but also reduces the time and stress associated with finding parking spaces in congested areas. By leveraging IoT and Arduino technologies, this parking system offers a practical and scalable solution to modern parking management issues.
Key Words: Arduino, IoT, Car Parking System, Ultrasonic
Sensors, Wireless Communication, Real-time Monitoring, Mobile Application, Web Interface, Parking Management.
1.INTRODUCTION Rapid urbanisation and an increase in the number of automobiles in cities have made parking management extremely difficult. As cities expand, the lack of parking spots has aggravated both motorists and urban planners. The lack of real-time data and reliance on manual monitoring in traditional parking management systems leads to inefficiencies, lost time, and worsened traffic congestion. Innovative and automated solutions that can maximise parking space utilisation and improve the overall parking experience are increasingly needed to address these problems. Parking management has been transformed by the fusion of Internet of Things (IoT) technology with embedded systems like Arduino. IoT and Arduino-based "smart" parking systems have the potential to provide real-time monitoring and effective parking spot utilisation. Drivers can get up-to-date information about available parking places through mobile applications or online interfaces by installing sensors to identify parking space availability and wirelessly transferring this information to a central server. This paper introduces an IoT-based, Arduino-based car parking system that aims to address the difficulties in managing urban parking. The system uses ultrasonic sensors that are connected to Arduino microcontrollers to detect the presence of cars in parking places. By capturing data about parking occupancy and sending it to a central
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Arduino gadgets function as data collection points. Users have remote access to this data, allowing them to use it to make smart parking decisions. This cuts down on the time spent looking for parking places and helps to relieve traffic congestion. In this paper, we will delve into the design and implementation of the Arduino Car Parking System using IoT. We will discuss the hardware components, the communication protocols, the data processing mechanisms, and the user interfaces that collectively form the system. Furthermore, we will highlight the benefits of this system, such as improved parking space utilization, reduced traffic congestion, and enhanced user convenience. The proposed system showcases how the synergy between IoT and Arduino technology can provide an effective and scalable solution to the persistent challenges of urban parking management.
2. LITERATURE REVIEW "IoT based Smart Parking System” by Yash Agrawal, Umang Shah, Puru Jain [1] The paper presents a Smart Parking System utilizing IoT, RFID modules, and cloud servers/mobile applications. The project comprises two main components: a mobile app for pre-booking and payments, and an IoT module deployed at entry/exit points for security checks via RFID tags. This system aims to alleviate parking issues, enhance time management, and generate profits for owners. It aims for minimal human intervention, favoring RFID for accuracy and fault tolerance over image-based methods. The benefits include precise parking space identification, avoiding privacy concerns of facial recognition, and easy transferability of RFID. "IoT-BasedSharedCommunity Transportation System Using eBikes" by A.R.Al-Ali, Raafat Aburukba [2] An architectural design for an electric bike (e-bike) system is presented in the study and validated by a working prototype on a college campus. The design consists of four main layers: interface, control and management, communication, and physical. Regular users can download a mobile app, and administrators can access a web portal. Implementing the system enables efficient administration and prompt decisions by allowing for e-bike tracking, usage restrictions, and misuse prevention.
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