Analysis of The Sensor Line on Line Follower Robot as an Alternative Transport The Tub Trash in The Shopping Center

Yurni Oktarina, M. Nawawi, Windy Gafrila Tulak

Abstract


This is a line follower robot is a robot designed to assist humans in activities such as throw away trash in the shopping center. On robot sensors added a line that consists of photodiode and LED.  The robot will walk follows the path which has been given a different color (black and white) to be detected by the sensor lines at the location of the junk-filled tubs and tubs of the empty trash. The research aims to know the performance of the sensor lines and the movement of the robot with the research method using PID. The results of this study when the distance between the sensor and the surface of 5 cm – 7 cm then the performance of the sensor surface in distinguishing the line of black and white still work fine, while at a distance of 8 cm – 10 cm sensor line performance diminished. For setting the PID, P = 10 will result averaged a greater error value i.e. 9.9 so the robot will move fast but unstable, while P = 5 align the median value error – i.e. 8 so the robot will move stable (as black)

Keywords


photodiode; line follower; LED; robot; trush; sensor

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References


Ali, M. (2004). Pembelajaran Perancangan Sis-tem Kontrol PID dengan Software Matlab. Jurnal Edukasi@ Elektro, 1(1), 1-8.

Arifianto, D. (2011). Bikin Robot itu Gampang. Jakarta: Kawan Pustaka

Budiharto, W. (2006). Belajar Sendiri: Membuat Robot Cerdas. Jakarta: Elex Media Komputindo.

Maulana, E. (2014). Perancangan dan Analisis Perbandingan Posisi Sensor Garis pada Robot Management Sampah. Jurnal Mahasiswa TEUB, 2(7).

Fitria, H. (2017). Pengertian, Cara Kerja, dan Kegunaan Light Emmiting Diode (LED). http://www.iklanvideotron.com/2017/01/pengertian-cara-kerja-dan-kegunaan-light-emmiting-diode-led/, diakses pada 15 Mei 2017.

Magdalena, G., Halim, F. A., & Aribowo, A. (2013). Perancangan sistem akses pintu garasi otomatis menggunakan platform Android. Prosiding Conference on Smart-Green Technology in Electrical and Information Systems. Bali: Department Of Electrical and Computer Engineering,

Postgraduate Study in Electrical and Computer Engineering, Udayana University

Muchlis, N. (2013). Pembuatan Robot Ziobot Untuk Penjejak Garis Dan Pengangkat Barang Dengan Sensor Jarak Berbasis Mikrokontroler. http://publication. gunadarma.ac.id/bitstream/123456789/1327/1/21107264.pdf, diakses pada tanggal 20 Mei 2017.

Oktariawan, I. (2013). Pembuatan sistem otomasi dispenser menggunakan mikrokontroler arduino mega 2560. Jurnal Ilmiah Teknik Mesin, 1(2).

Susilo, D. & Nugroho, R.A. (2007). Wall Following Algorithm. Jurnal Ilmiah Elektronika, 6 (2).




DOI: http://dx.doi.org/10.30870/volt.v2i2.1859

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VOLT: Jurnal Ilmiah Pendidikan Teknik Elektro (ISSN: 2528-5688 | e-ISSN: 2528-5696)
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