Microcontroller Based Parking Lot Monitoring System Prototype
Keywords:
Parking System, Microcontroller, Parking Prototype
Abstract
Parking area is one of the facilities that must be available in specific or public places such as parks, recreation areas, malls, offices, business areas and agencies, and other places. Currently, the existing parking facilities generally do not provide information on the presence or absence of vacant parking spaces. This often causes problems in finding parking spaces, where vehicle users, especially four-wheeled vehicles (cars) will look for empty parking spaces by walking around so they can spend a lot of time. This study aims to create a parking lot monitoring system that is equipped with a microcontroller-based monitoring system so that vehicle users can find out how many parking spaces are available and where the parking lot is located. This parking monitoring system was developed using the prototyping method so that determining the need for the actual system is easier to realize. The test results of this device show that this prototype can provide information regarding the number of vacant parking lots and their locations. The impact of this research is that it can eliminate the accumulation of vehicles in front of the parking lot entrance, because vehicle users can easily and quickly find a parking location.
References
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[31] Khan, M. A., & Sadiq, M. (2011). Analysis of black box software testing techniques: A case study. Proceedings of the 2011 International Conference and Workshop on the Current Trends in Information Technology, CTIT’11, i, 1–5.
[2] R. Aarthi, & Renold, A. P. (2014). Coap Based Acute Parking Lot Monitoring System Using Sensor Networks. ICTACT Journal on Communication Technology, 05(02), 923–928.
[3] Kamble, P., Chandgude, S., Deshpande, K., Kumari, C., & Gaikwad, K. M. (2021). Smart Parking System. International Journal of Advanced Engineering and Nano Technology, 4(6), 1–5.
[4] Badan Pusat Statistik (2021). Perkembangan Jumlah Kendaraan Bermotor Menurut Jenis (Unit), 2017-2019. bps.go.id
[5] Shi, J., Jin, L., Li, J., & Fang, Z. (2017). A smart parking system based on NB-IoT and third-party payment platform. 2017 17th International Symposium on Communications and Information Technologies, ISCIT 2017, 2018-January(July 2020), 1–5.
[6] Babu, M. V. S. S., Rani, K. L., Deepika, G., Kumar, K. J., & Nagendra, D. (2021). Smart Parking System Using IOT. Dogo Rangsang Research Journal, 14, 6.
[7] Limantara, A. D., Purnomo, Y. C. S., & Mudjanarko, S. W. (2017). Pemodelan Sistem Pelacakan LOT Parkir Kosong Berbasis Sensor Ultrasonic Dan Internet Of Things ( IOT ) Pada Lahan Parkir Diluar Jalan. Seminar Nasional Sains Dan Teknologi, 1(2), 1–10.
[8] Maulana, R., Fitriyah, H., & Prakasa, E. (2018). Implementasi Sistem Deteksi Slot Parkir Mobil Menggunakan Metode Morfologi dan Background Subtraction. Jurnal Pengembangan Teknologi Informasi Dan Ilmu Komputer (J-PTIIK) Universitas Brawijaya, 2(5), 1954–1959.
[9] Setiawan, J. C., Resmana Lim, M. E., & Justinus Andjarwirawan, M. (2017). Implementasi Internet of Things Untuk Parkir Mobil Dengan Pembayaran Menggunakan QR Code.
[10] Kianpisheh, A., Mustaffa, N., Limtrairut, P., & Keikhosrokiani, P. (2012). Smart Parking System (SPS) architecture using ultrasonic detector. International Journal of Software Engineering and Its Applications, 6(3), 51–58.
[11] Shin, J. H., & Jun, H. B. (2014). A study on smart parking guidance algorithm. Transportation Research Part C: Emerging Technologies, 44, 299–317.
[12] Parmar, J., Das, P., & Dave, S. M. (2020). Study on demand and characteristics of parking system in urban areas: A review. Journal of Traffic and Transportation Engineering (English Edition), 7(1), 111–124.
[13] Gabriel, M., Og, D., & Fabregat, R. (2020). applied sciences Survey of Smart Parking Systems. MDPI, 1–45.
[14] Fahim, A., Hasan, M., & Chowdhury, M. A. (2021). Smart parking systems: comprehensive review based on various aspects. Heliyon, 7(5), e07050.
[15] Agarwal, Y., Ratnani, P., Shah, U., & Jain, P. (2021). IoT based smart parking system. Proceedings - 5th International Conference on Intelligent Computing and Control Systems, ICICCS 2021, Iciccs, 464–470.
[16] Azevedo, J., D’Orey, P. M., & Ferreira, M. (2020). High-Density Parking for Automated Vehicles: A Complete Evaluation of Coordination Mechanisms. IEEE Access, 8, 43944–43955.
[17] Gandhi, R., Nagarajan, S., Chandramohan, J., Parimala, A., & Arulmurugan, V. S. (2021). IoT based Automatic Smart Parking System with EV- Charging Point in Crowd Sensing Area. Annals of R.S.C.B., 25(6), 6398–6409.
[18] Mas Diayasa, I. G. S., Sri Rg, N. L. W., Winardi, S., Setiawan, A., Sri Wiwoho, M., Anindito, B., & Andjarwati, T. (2020). Progressive Parking Smart System in Surabaya’s Open Area Based on IoT. Journal of Physics: Conference Series, 1569(2).
[19] Gomathi, B. (2021). Proactive Car Parking System Using Iot. YMER Digital, 20(12), 468–474.
[20] A. Elsonbaty, A., & Shams, M. (2020). The Smart Parking Management System. International Journal of Computer Science and Information Technology, 12(4), 55–66.
[21] Bajpai, A. (2020). IoT based Smart Parking System using Mobile Application. International Journal for Research in Applied Science and Engineering Technology, 8(11), 524–530.
[22] Mainetti, L., Palano, L., Patrono, L., Stefanizzi, M. L., & Vergallo, R. (2014). Integration of RFID and WSN technologies in a Smart Parking System. 2014 22nd International Conference on Software, Telecommunications and Computer Networks, SoftCOM 2014, 104–110.
[23] Ramsari, N., & Utomo, S. (2020). Booking smart parking system using microcontroller. IOP Conference Series: Materials Science and Engineering, 830(2).
[24] Narayan, B., & Kumari, R. (2020). Ultrasonic based easy parking system based on Microcontroller. International Journal of Innovative Technology and Interdisciplinary Sciences, 3(2), 429–434.
[25] Allbadi, Y., Shehab, J. N., & Jasim, M. M. (2021). The Smart Parking System Using Ultrasonic Control Sensors. IOP Conference Series: Materials Science and Engineering, 1076(1), 012064.
[26] Kannan, M., William Mary, L., Priya, C., & Manikandan, R. (2020). Towards Smart City through Virtualized and Computerized Car parking System using Arduino in the Internet of Things. 2020 International Conference on Computer Science, Engineering and Applications, ICCSEA 2020.
[27] Ogedebe, P., & Jacob, B. P. (2012). Software Prototyping: A Strategy to Use When User Lacks Data Processing Experience. Semantic Scholar.
[28] Susanto, A., & Meiryani. (2019). System Development Method with The Prototype Method. International Journal of Scientific and Technology Research, 8(7), 141–144.
[29] Rahmadini, N., Latifah, K., Fahmi, S., Teknik, F., Semarang, U. P., Lantai, G. G. P., Jl, K., & Timur, S. (2020). Analisa Perancangan E-Maintenance ( Perawatan Lcd Berkala ) Dengan Menggunakan Metode Prototype Berbasis Web. Science And Engineering National Seminar 5 (SENS 5), 5(Sens 5).
[30] Estrada-Vargas, A. P., López-Mellado, E., & Lesage, J. J. (2017). A Black-Box Identification Method for Automated Discrete-Event Systems. IEEE Transactions on Automation Science and Engineering, 14(3), 1321–1336.
[31] Khan, M. A., & Sadiq, M. (2011). Analysis of black box software testing techniques: A case study. Proceedings of the 2011 International Conference and Workshop on the Current Trends in Information Technology, CTIT’11, i, 1–5.
Published
2022-03-15
How to Cite
Purwanto, H., & Prasetio, B. (2022). Microcontroller Based Parking Lot Monitoring System Prototype. International Journal of Research and Applied Technology (INJURATECH), 2(1), 132-141. https://doi.org/10.34010/injuratech.v2i1.6742
Section
Articles
