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All Journal Jurnal Kelautan dan Perikanan Terapan (JKPT) Progresif: Jurnal Ilmiah Komputer PELAGICUS: Jurnal IPTEK Terapan Perikanan dan Kelautan Jurnal Airaha
Anasri Tanjung
Politeknik Kelautan Dan Perikanan Karawang
Agriculture, Biological Sciences & Forestry Humanities Astronomy Chemistry Computer Science & IT Control & Systems Engineering Education Engineering Environmental Science Social Sciences

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Journal : Progresif: Jurnal Ilmiah Komputer

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Implementasi Sistem Kontrol pada Gerbang Parkir dan Spike Barrier Menggunakan Mikrokontroler Afrilio Franseda; Burhanuddin Dirgantoro; Randy Erfa Saputra; Anasri Tanjung
Progresif: Jurnal Ilmiah Komputer Vol 16, No 2: Agustus 2020
Publisher : STMIK Banjarbaru

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (538.094 KB) | DOI: 10.35889/progresif.v16i2.510

Abstract

Abstrak. Teknologi dalam sistem parkir telah banyak diterapkan demi menciptakan efisiensi waktu, tenaga dan biaya. Kebutuhan sistem ini banyak diterapkan pada tempat-tempat yang dikelilingi keramaian seperti apartemen atau perkantoran. Namun tiket serta adanya petugas yang masih menjaga gerbang dirasakan belum efisien. Penelitian ini memberikan solusi untuk pengembangan gerbang parkir otomatis yang ditambahkan spike barrier sebagai keamanan parkir. Hasil dari pengujian sensor ultrasonik pada gerbang masuk dan keluar diperoleh akurasi jarak yaitu 0.13 cm dan 1.26 cm. Hasil pengujian proses masuk dan proses keluar yaitu diperoleh rata –rata 16.7 detik dan 17.5 detik. Pengujian spike barrier diperoleh hasil yaitu rata–rata tinggi spike 5 cm dan response time 5.136 detik. Hasil dari pengujian kebutuhan daya gerbang parkir dan spike barrier yaitu 23.5 watt.Kata kunci: Gerbang Parkir, Spike barrier, Microcontroller, Arduino, Sensor UltrasonikAbstract. Technology in parking systems has been widely applied in order to create time, energy and cost efficiency. The need for this system is widely applied in places surrounded by crowds such as apartments or offices. But the ticket and the presence of officers who still guard the gates are felt not efficient yet. This research provides a solution for the development of automatic parking gates that are added to the spike barrier as parking security. The results of ultrasonic sensor testing at the entrance and exit gates obtained distance accuracy of 0.13 cm and 1.26 cm. The results of testing in and out processes are obtained an average of 16.7 seconds and 17.5 seconds. Spike barrier test results obtained are the average spike height of 5 cm and response time of 5.136 seconds. The results of testing the parking gate and spike barrier power requirements are 23.5 watts. Keywords: Parking Gate, Spike barrier, Microcontroller, Arduino, Ultrasonic Sensor
Co-Authors Abdul Rahman Abrori, M. Zaki Latif Ade Kusuma Wardani Adi, Catur Pramono Aef Permadi Afrilio Franseda Akhmad Saeroji Arifah Fadhilah Adjisuci Aripudin Aripudin Aris Kabul Pranoto Burhanuddin Dirgantoro Devi Wulansari Eny Budi Sri Haryani Franklyn Hoek Hapsari, Larasati Putri Ika Anjani Misbah Sururi Muhfizar, Muhfizar Mustasim, Mustasim Nurfauzi, Akhmad Nurur Rahmah Holis Panjaitan, Pola Sabar Tumohom Prasetyo, Djoko Rahmat Surya Hadi Saputra Randy Erfa Saputra RATNANINGTYAS, SUSI Rohyadi, Rohyadi Saputra, Rahmad Surya Hadi Sayuti, Mohammad Sewiko, Roni Sonny Mawardi Sukma Budi Prasetyati Sukma Budi Prasetyawati Widi Ayu Rinjani Yasser Arafat Yundari, Yundari