Rancang Bangun Alat Penampung Buku Berbasis Arduino pada Sistem Pengembalian Buku Layanan Mandiri
DOI:
https://doi.org/10.37034/jsisfotek.v3i2.48Keywords:
Book Container, Ultrasonic Sensor, Arduino, Motor DC, BuzzerAbstract
This study aims to design and create a book container in a self-service book return system at the Andalusia Library & Knowledge Center UPI YPTK Padang. Currently, the self-service book return system is carried out through a book drop machine. This book container is designed to complement the book drop machine. The returned book is inserted into the slanted gap so that it can slide into the book container. When the book container is empty, the base is at the upper limit position. If a book is entered, the base will automatically drop according to the thickness of the book. And so on, until it is full and the buzzer is active. Thus, it is hoped that book damage can be prevented due to the book falling too far down. The system is designed using ultrasonic sensors to detect upper and lower limits, a Direct Current (DC) motor to move the base down according to the thickness of the book. After testing, the book container works well and is able to withstand loads of up to 22 kg with the number of books between 30 and 50 depending on the size of the book. The DC motor is able to move the book container when the load is maximum. The sensor can detect the thickness of the book, the upper and lower limits and the buzzer can activate when the book is full. Thus, this tool can be used to support the book drop in the self-service book return system.
References
Supriyo, S. (2015). Pengaruh Buku Teks dan Cetak Terhadap Hasil Belajar di Sma N I Marga Tiga Kabupaten Lampung Timur pada Kelas XIIi. IPS Tahun Pelajaran 2013/2014. PROMOSI (Jurnal Pendidikan Ekonomi), 3(1). https://doi.org/10.24127/ja.v3i1.145
Mangnga, A. (2015). Peran Perpustakaan Sekolah Terhadap Proses Belajar Mengajar Di Sekolah. Jupiter, 14(1), 38–42
Fatmawati, E. (2018). Identifikasi Faktor-Faktor Penyebab Kerusakan Koleksi Perpustakaan. Edulib, 7(2), 108–119. doi:10.17509/edulib.v7i2.9722
Aria, M. Ramdhani, D. & Firda, M. (2017). Sistem Sirkulasi Buku Perpustakaan Mandiri Berbasis RFID Automated Library Book Circulation System Based on RFID. Prosiding Saintiks FTIK UNIKOM, V.27 .
Tjandrarini, A. B. & Lemantara, J. (2015) Pembuatan Prototipe Tempat dan Aplikasi Pengembalian Koleksi Perpustakaan Secara Mandiri. J. Nas. Tek. Elektro dan Teknol. Inf. 4(1), http://dx.doi.org/10.22146/jnteti.v4i1.131
Watkiss, S. (2016). Learn Electronics with Raspberry Pi: Physical Computing with Circuits, Sensors, Outputs, and Projects. Second Edition, Apress
Naf’an, E. (2019. December 6). Akurasi Sistem Penjadwalan Sholat Digital Menggunakan Arduino Sebagai Pengendali. Jurnal Sistim Informasi Dan Teknologi, 1(4), 77-84. https://doi.org/10.35134/jsisfotek.v1i4.25
Naf`an, E., Sulaiman, R., Mohamad Ali, N., Priambodo, B., Hazidar, A. H., Kudr Nseaf, A., … Handriani, I. (2019). Improving the Modelling of Robot Bunker With Camera. Journal of Physics: Conference Series, 1339, 012014. https://doi.org/10.1088/1742-6596/1339/1/012014
N. Anju Latha, B. Rama Murthy, K. Bharat Kumar (2016). Distance Sensing with Ultrasonic Sensor and Arduino. International Journal of Advance Research, Ideas and Innovations in Technology, 2(5), 1-5.
Zakaria, D., Gunawan, T., Somantri, Y., Abdullah, A. G., Widiaty, I., Nandiyanto, A. B. D., … Arasid, W. (2018). Design of the Liquid Volume Meter Device Using Ultrasonic Waves Based on Microcontroller. IOP Conference Series: Materials Science and Engineering, 384, 012019. https://doi.org/10.1088/1757-899x/384/1/012019
Warren, J. D., Adams, J. & Molle, H. (2011). Arduino Robotics. Apress. https://doi.org/10.1007/978-1-4302-3184-4
Abbes, M. S., Choley, J.-Y., Chaari, F., Jarraya, A., & Haddar, M. (Eds.). (2014). Mechatronic Systems: Theory and Applications. Lecture Notes in Mechanical Engineering. https://doi.org/10.1007/978-3-319-07170-1
Team, E. (2019) Lesson 09 Buzzer
Arduino (2019). Arduino Mega 2560 Rev3
Arduino (2019) Arduino Uno Rev3
Oxer, J., & Blemings, H. (2010). Practical Arduino. https://doi.org/10.1007/978-1-4302-2478-5
Cameron, N. (2019). Arduino Applied. https://doi.org/10.1007/978-1-4842-3960-5
