Paper Details

In Metro cities, two-wheeler parking has become a major problem in all traffic areas. Also problem of twowheeler parking becomes major in Malls, Multiplexes, and picnic places during weekends. By this project maximumspace utilization of parking can be done. This study presents a simulation based feasibility study for development offully automated parking structure with a group of plates using electromagnet. There are different types of automatedparking structure available such as Rotary parking, Multi Circulation parking, Tower parking, Puzzle parking, etc.From these types present study is about Puzzle parking structure. In this structure there are number of floors and eachfloor can be divided horizontally and also there are number of sections vertically in each floor. In this Puzzle parkingsystem controller software based computer can be used for controlling all the movements of parking system. In additionto these two plates mechanism are used in which one plate used for park the two-wheeler and other one is used forproviding base for the electromagnet. Each top plate is used to carry two-wheeler between floors. In whichelectromagnet is used for holding the two-wheeler. Fork Lift will be used for moving two-wheeler horizontally andvertically in the parking system without need of driver while the engine is off. By this parking system there will be goodspace utilization. By the help of this parking system we can reduce the retrieving time of the vehicle to approximately 3minutes as compared to manual.

Maharshi Gandhi, Niyati Vala, Aamir Vahora, Nikhil Shetty, “Design of Automatic Parking System for Two-Wheeler”, International Journal of Advance Engineering and Research Development (IJAERD), Vol. 4, Issue 3, pp. 438-442, March 2017.