PERANCANGAN SISTEM PALANG PINTU OTOMATIS TERPILIH BERBASIS RFID

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Charisma Dwilestari
Agustinus Purna Irawan
Agus Halim

Abstract

An apartment is a place to live in a building, equipped with various facilities, and is a public area inhabited by hundreds or even thousands of people. The security system in the apartment is not comfortable and safe, because of the condition of the apartment area that can be accessed by anyone as a fellow occupant (one area but in a different building). Based on the observations that have been made, one solution that can be done is to limit access to the apartment building. This access restriction can be done by dividing the entrance and adding boom barriers in each lane. The method used is a design method based on the results of observations. The design of this system considers the number of lanes, vehicle speed, and distance traveled. The speed used is in the range of 5 km/h and 20 km/h with a maximum distance of 27,081 m and a minimum distance of 9.998 m. The fastest travel time obtained is 1.799 s with a speed of 20 km/h and the slowest is 19.497 s with a speed of 5 km/h.

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References

Alwi, Hasan, 2012, Kamus Besar Bahasa Indonesia, Balai Pustaka, Jakarta.

Jibril, Mustefa, Tadese, Messay, Shoga, Tesfabirhan, 2020, “Design & Control of Vehicle Boom Barrier Gate Sistem using Augmented H2 Optimal & H∞ Synthesis Controllers”, Multidisciplinary Academic Journal Publisher, pp. 5.

Chaudhury,Monalisa, 2018, Boom barrier to jaywalking [online]. Available: https://www.telegraphindia.com/west-bengal/boom-barrier-to-jaywalking/cid/1410167 Diakses : 20 Agustus 2021 (10.09)

Börklü, Hüseyin R., Kalyon, Sadık A., 2017, “A Design Study of an Innovative Barrier System for Personal Parking Lots”, Gazi University, pp. 113.

Berutu, Weenmean, 2016, “Perancangan Aplikasi Palang Pintu Otomatis Mengugunakan Motion Sensor Berbasis Mickrokontroler AT89S51”, JURIKOM, vol.3, no.1, pp. 96.

Imbiri, F. A., Taryana, N., Natalia, D, 2018, “Implementasi Sistem Perparkiran Otomatis dengan Menentukan Posisi Parkir Berbasis RFId”, ELKOMIKA: Jurnal Teknik Energi, pp. 32.

Law, Averill M., W. David Kelton, 2013, Simulation Modeling and Analysis, fifth edition, McGraw-Hill.

Agrosangad, 2018, Macam-Macam Ukuran Mobil dari Berbagai Merek Kendaraan Bermotor [Online]. Available: https://www.rumahsae.com/2018/05/macam-macam-ukuran-mobil-dari-berbagai-merek-kendaraan-bermotor.html

Barqireza, Muhammad Firdaus, Setyawan Andhi, Putra Dian U.A., Helmi, Fanizar, 2014, “Analisis Volume Lalu Lintas Harian Rata-rata (VLHR)”, Yogyakarta: Universitas Negri Yogyakarta, pp. 19-21.

Bahri, Samsul, 2011, “Identifikasi Jenis dan Berat Kendaraan Melalui Jembatan Timbang”, Jurnal Inersia Vol.2 No.2, pp. 1-2.

Achdian, A, 2012, “Rancang Bangun Alat Monitoring Parkir Nirkabel Berbasis Mikrokontroler ATMega8535”, Universitas Gunadarma, pp. 1-6.

Hoomod, Haider Khadhim and Al-Chalabi, Sadeem Marouf M., 2017, “Objects Detection and Angles Effectiveness by Ultrasonic Sensors HC-SR04”, ISJR, vol.6, no.6, pp. 992 .

Mishra, A. Karmakar, A. Ghatak, 2019, “Low Cost Parking System For Smart Cities: A Vehicle Occupancy Sensing And Resource Optimization Technique Using IoT And Cloud PaaS”, IJSTR. vol.8, issues 09.

S.L. Fong, A. A. Azham, F.Y.H. Ahmed, 2019, “Smart Transportation System Using RFID”, ICSCA.

Mufida, Elly, Anwar, Rian Septian, Gunawan Isna, 2020, “Rancangan Palang Pintu Otomatis Pada Apartemen dengan Akses 3-KTP Berbasis Arduino”, INSANtek, Vol. 1 No. 2, pp. 60.

Bansal, R.K., 2018, A Textbook of Engineering Mechanics, Sixth Edition, Andi Yogyakarta, Indonesia.