Implementasi Sidik Jari sebagai Otentikasi Parkir Kendaraan  Menggunakan Raspberry Pi

Mohamad Dimyati Ayatullah; Devit Suwardiyanto; I Wayan Suardinata

doi:10.29207/resti.v2i3.580

Mohamad Dimyati Ayatullah Politeknik Negeri Banyuwangi
Devit Suwardiyanto Politeknik Negeri Banyuwangi
I Wayan Suardinata Politeknik Negeri Banyuwangi

DOI: https://doi.org/10.29207/resti.v2i3.580

Keywords: fingerprint, Raspberry pi, ultrasonic sensor, motor servo

Abstract

Authentication of vehicle in and out of the parking lot is one of the problems that still need to be explored. Most parking lot authenticate the vehicle by record the number plate on the parking card. Officer verify the number plate on parking card with the vehicle registration certificate. This method requires accuracy of the parking attendant. Research carried out utilizing the vehicle driver's fingerprint identification and the introduction of vehicle number plates through photos by parking attendants as authenticator. The system is built from several devices, namely ultrasonic sensors to detect the presence of vehicles. Fingerprint sensor to detect fingerprints equipped with storage to store fingerprint templates. Webcam for taking photos of vehicles as verification when the vehicle exits the parking lot. While the portal door is driven by a servo motor. all systems are controlled using Raspberry Pi 3 using the python programming language. The test results on ultrasonic sensors are able to detect the presence of vehicles at a distance of 10-200 cm with an accuracy rate of 96%. Servo motor rotates position 0 ° if the Duty Cycle value is set 2.5 and rotates 90 ° if the DutyCycle 7.5 value. The webcam position is 2 meters from the location of the fingerprint sensor. The position of the pressed finger produces a faster process in identifying the character of the fingerprint during recording and matching fingerprints

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References

[1] Mejri,Naourez. et al, IEEE International, 2016. Reservation-based Multi-Objective Smart Parking Approach for Smart Cities. Trento, Italy, 12-15 Sept. 2016, International Smart Cities Conference:
[2] ShahzadMewon, et al, IEEE, 2008. Review of finger print sensing technologies. Karachi, Pakistan, 23-24 Dec. 2008, International Multitopic Conference
[3] Lourde,Mary, et al, 2010. Fingerprint Identification in Biometric Security Systems. International Journal of Computer and Electrical Engineering, 2(5),p.1793-8163
[4] Zuly Budiarso, et al,2015. Implementasi Sensor Ultrasonik Untuk Mengukur Panjang Gelombang Suara Berbasis Mikrokontroler,Jurnal Teknologi Informasi. DINAMIK, 20(2),p.171-177
[5] Nareshkumar R. M, et el: 2017. Smart Door Security Control System Using Raspberry Pi. IJIACS, 6(11),p.499-503
[6] Jordi,S. dan Solsona,F., 2016. FingerScanner: Embedding a Fingerprint Scanner in a Raspberry Pi, Sensors,p.1-18
[7] Ragil Febrio Giant, et al,2015. Perancangan Aplikasi Pemantau Dan Pengendali Piranti Elektronik Pada Ruangan Berbasis Web. Transmisi, 17(2),p
[8] Egrit Nurcahyo Wijatsongko, et al, 2015. Sistem Pemantauan Ruangan Dengan Server Raspberry Pi, IJEIS, 5(1),p. 65-76
[9] N. Anju Latha, 2016. Distance Sensing with Ultrasonic Sensor and Arduino. International Journal of Advance Research, Ideas and Innovations in Technology, 2(5),p.1-5
[10]Walsh.S, Pośpiech.E dan Branicki,W.,2016. Hot on the Trail of Genes that Shape Our Fingerprints. Journal of Investigative Dermatology,136(4),p.740-742
[11]Asyrani,H.,2013. Wireless based Smart Parking System using Zigbee. International Journal of Engineering and Technology (IJET),5(4),p. 3282-3300
[12]Prarna Dhar,P. dan Gupta,P., 2016.Intelligent Parking Cloud Services based on IoT using MQTT Protocol.International Journal of Engineering Research,5(6),pp.457-461
[13]Al-Naima,F.M, 2015. Design of an RFID Vehicle Authentication System: A Case Study for Al-Nahrain University Campus. International Journal of Scientific and Technological,1(7),pp.62-73