iPARKMO I PARK finder using Mobile application with security features

Proponents:Garrol, joseph vincent r.panganiban, viaca camille c.pelagio, rei miguel d.

iPARKMO

(I PARK finder using Mobile application with security features)

THESISConsists of research design and design implementation wherein the proponents can innovate a certain system that will contribute to the improvement of it. ABSTRACTCar parking system has two types, the traditional and automated parking system. Adversaries such as inconvenient parking options, confusing parking policies, time consuming slot discovery, and everything else that causes traffic congestion, most of these can be mended through the implementation of smart parking. Smart parking involves the usage of sensors, real-time data collection, and mobile phone enabled monitoring. The project will be designed and made especially to search and provide the closest parking lot with respect to the area specified by the user which will be available in advance. The application has three modules. The first module is the Parking lot system with security features, wherein ultrasonic sensors will be used for the provision of slot availability to the database. The second module is the utilization of Image Processing and Database management. The third module is the Application, wherein an Android application will be used for monitoring. OBJECTIVE To develop a system that can easily determine available parking spaces in parking lot areas using the mobile application and to provide the very specific slot for the user to park the car.

PRIOR ART System and method for identifying parking spaces for a community of users

ABSTRACT

A mobile communications device includes a locator unit to receive and process information regarding a current location for the mobile communications device, a parking status determination unit to determine a parking status for the device based on at least changes in the current location, and a communication unit to forward the parking status to a parking community processor. A method includes determining a parking status of a vehicle associated with a person as a function of movement of a personal mobile communications device.PROPOSED DESIGN

SYSTEM LEVELS: COMPONENT

ComputerMobile ApplicationSecurity SystemParking SystemUltrasonic SENSORSProvide precise no-touch presence/absence sensing distance sensing or trackingApplicable for long distancesProvide an accuracy of measuring distances ranging from 100 mm to 6,000 mm (over 19 feet)

System operations

Arduino nano

SpecificationsMicrocontroller Atmel ATmega328Operating Voltage (logic level) 5 VInput Voltage (recommended) 7-12 VInput Voltage (limits) 6-20 VDigital I/O Pins 14 (of which 6 provide PWM output)Analog Input Pins 8Analog Input Pins 8Flash Memory 32 KB (of which 2KB used by boot loader)SRAM 2 KBEEPROM 1 KBClock Speed 16 MHzDimensions 0.70 x 1.70

Sample code

BLUETOOTH MODULEEGBT- 04 ModuleLoaded with SPP Firmware Wireless UART Cable ReplacementIt can be configured by the user to work either as a master or slave Bluetooth device using a set of AT Commands.

testing

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