AUTO MATED PARKING SYSTEM 312225842.pptx
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Aug 29, 2025
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parking system
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KDK COLLEGE OF ENGINEERING,UMRER NAME OF PROJECT-ADVANCEMENT OF AUTOMATED PARKING SYSTEM NAME OF STUDENTS MANDAR PUSADEKAR RAHUL KHOBRAGADE VISHWAS JADHAV VIVEK KADBE SAURABH SONUNE SUMEDH GEDAM PIYUSH KUMAR YEAR/BRANCH-FINAL YEAR MECHANICAL NAME OF GUIDE PROF . A.M . KHALATKAR
History The concept for the automated parking system was and is driven by two factors: a need for parking spaces and a scarcity of available land. The earliest use of an APS was in Paris, France in 1905 at the Garage Rue de Ponthieu . The APS consisted of a groundbreaking multi-story concrete structure with an internal elevator to transport cars to upper levels where attendants parked the cars . In the 1920s, a Ferris wheel-like APS (for cars rather than people) called a paternoster system became popular as it could park eight cars in the ground space normally used for parking two cars . Mechanically simple with a small footprint, the paternoster was easy to use in many places, including inside buildings. At the same time, Kent Automatic Garages was installing APS with capacities exceeding more than a 1,000 cars.
Introduction A prototype of automated multi-storage car parking An idea for space conservation A learning process thereby It currently supports ground + one level parking Has 6 slots per level and an elevator for commutation Firebird IV used as an automated vehicle Firebird IV also serves as an elevator controller and a central coordinator
Flow chart of The Parking System
Working 1. Automated parking system is based on the automated monitoring unit and sensors which operates whole unit and lifting mechanisms . 2. Initially the vehicle is entered in the parking lot and kept on the moving platform after that it ready to parked in the given space . 3 . The lifting mechanisms carried out the vehicle up and down as per the space available . 4. The sensors are governed the platform to park the vehicle by monitoring unit which is placed at certain distance from parking space. 5. The computerize software is stored data of vehicle(I .e car no, parking, slot no, date, time etc. ) and also it operate whole parking system . 6. At the time of vehicle leaving the parking lot, sensor are guide the lifting mechanism to carry the vehicle from slot to ground level by computer operator and the vehicle is leave easily by this sy st em.
Basic Concept No Ramps No High Ceilings Twice As Many Cars Half the Space No Need for Space on Either side of car
Hardware requirements Self parking: Front, Left and Right IR sensor Ground level edge detection: Three white line sensors Stop after entry into elevator: Front IR sensor Lifting mechanism: Existing Firebird IV DC geared motors Coordinator – car communication: 802.15.4 zigbee communication module
Block diagram
The arrangement of APS
LITERATURE VIEW The aim of this project is to automate the car and car parking as well. A miniature model of an automated car. parking system that can regulate and manage number of cars that can be parked in given space at any given time based on the availability of parking slot . Automated parking is a strategy for parking and leaving cars utilizing detecting device . The aim of this research is to develop and implement an automatic parking system that will increase convenience security of the public parking lot as well as collecting parking fee without hassles of using magnetic card .
LITERATURE VIEW Automated parking is a method of parking and existing cars using sensing device. The entering and leaving to the lot is commanded by an android application . The industrial growth of the world is reflected by the increase in the number of automobiles on the streets throughout the world . An automated navigation system should assist in safe driving.
Scope Space conservation Easily extendible to more levels with few modifications Better bookkeeping Functionality add on Un parking mechanism Sophistication
Constraints and challenges Design challenges Hardware : Lift mechanism Software : Division of the required functionalities into appropriate subtasks and assigning priorities to these Priority order : Sensing (highest), velocity control, distance and wireless tasks Design constraints White line occurrence anywhere other than the end of the ground level is not allowed Lift mechanism needs human assistance
Advantages of APS LESS LAND IS NECESSARY (50-60%less for the same no of space due to density). Less time to park and less time to retrieve a vehicles . Garage can go up ,down Lower utility costs compared to a typical garage. Greater security for patrons and vehicles. No worries about vandalism. Ability to retrofit buildings. Excellent for difficult project like underground garages.
REFERENCE D.J.Bonde,”Automated car parking system commanded by Android application”, IEEE Conf.,05-03,Jan 2014. M. A. R. Sarkar, A. A. Rokoni, M. O. Reza, M. F. Ismail, “Smart parking system with image processing facility” , I. J. Intelligent System and Application , 2012. Norazwinawati Basharuddin, R. Yusnita, Fariza Norbaya, ”intelligent parking space detection system based on image processing ”, International Journal Of Innovation, Management and Technology, 2012 Michelle Crowder and C. Michael Walton, 2003,’ Developing an Intelligent Parking System for the University of Texas a t Austin’ The University of Texas at Austin,Texas.
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