Design Prototype Robot Vacuum Cleaner Based on Arduino Microcontroller with Autonomic Mode

Herdiansya Herdiansya; Yonky Pernando

doi:10.47065/tin.v4i3.4215

Herdiansya Herdiansya Universitas Universal, Kota Batam, Indonesia
Yonky Pernando * Universitas Universal, Kota Batam, Indonesia

(*) Corresponding Author

DOI: https://doi.org/10.47065/tin.v4i3.4215

Keywords: Arduino; Sensors; Vacuum; Robotics; Autonomus

Abstract

The development of robotics technology in the current era has become a highly relevant need to assist humans in various everyday activities. One significant application of this technology is the creation of a prototype "Robot Vacuum Cleaner Based on Arduino Microcontroller with Autonomous Mode." This research aims to design and develop a robot vacuum cleaner capable of autonomously cleaning rooms. The design encompasses several key aspects. The physical design of the robot vacuum cleaner is an essential initial step. The shape, size, and layout of components within the robot are carefully designed to ensure easy maneuverability within the room, efficient cleaning of hard-to-reach corners, and the ability to avoid obstacles. The robot is equipped with several main components, including 3 ultrasonic sensors for obstacle detection, 3 omni wheels for excellent mobility, 2 motor drivers to control wheel movement, and 1 Arduino microcontroller as the central brain coordinating all robot operations. One of the key features of this robot is its autonomous mode. This means the robot can operate independently without human intervention. Ultrasonic sensors are used to detect obstacles around the robot. When an obstacle is detected, the robot changes direction or avoids it, allowing it to continue cleaning the room. The robot is designed to provide users with an efficient and user-friendly experience. Users only need to activate the robot, and it will perform its tasks autonomously without human intervention. This research is expected to provide significant benefits by offering an efficient solution for everyday room cleaning. The well-designed physical appearance and autonomous mode integration of this robot vacuum cleaner make it easy to use and provide a more efficient cleaning experience. Overall, this research contributes to the broader development of robotics technology in the modern era.

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References

Adeyanto, Z., Izzuddin, A., & Hikmah, N. (2020). RANCANG BANGUN ROBOT VACUUM CLEANER DENGAN MENERAPKAN PROPOSITIONAL LOGIC UNTUK PENGATURAN NAVIGASI. In Jurnal MNEMONIC (Vol. 3, Issue 2).

Aditya, R., Handrianus Pranatawijaya, V., Bagus Adidyana Anugrah Putra, P., Hendrik Timang, J., Palangkaraya, K., & Tengah, K. (2021). Rancang Bangun Aplikasi Monitoring Kegiatan Menggunakan Metode Prototype. In JOINTECOMS (Journal of Information Technology and Computer Science) p-ISSN: xxxx-xxxx (Vol. 1, Issue 1).

Alda, M. (2023). Pengembangan Aplikasi Pengolahan Data Siswa Berbasis Android Menggunakan Metode Prototyping Development Application of Student Data Processing Based on Android Using Prototyping Method. 13. https://doi.org/10.34010/jamika.v13i1.8216

Arief, R., Rafiansyah, M. F., Aditya, B., Devano, R., Institut, S., Adhi, T., & Surabaya, T. (2023). Pengembangan CMS Wordpress untuk Website Company Profile dengan Penambahan Fitur Member Menggunakan Metode Prototype. https://doi.org/10.31284/p.snestik.2023.4308

Fatmawati, K., Sabna, E., Irawan, Y., Informatika, T., & Hang Tuah Pekanbaru, S. (n.d.). RANCANG BANGUN TEMPAT SAMPAH PINTAR MENGGUNAKAN SENSOR JARAK BERBASIS MIKROKONTROLER ARDUINO. In Riau Journal of Computer Science (Vol. 06).

Hasibuan, A. Z., & Asih, M. S. (2019). Rancang Bangun Robot Vacum Cleaner Berbasis Mikrokontroler dengan Pengendali Smartphone Android. InfoTekJar (Jurnal Nasional Informatika Dan Teknologi Jaringan), 4(1), 116–120. https://doi.org/10.30743/infotekjar.v4i1.1297

Herliawan, I., Saon, I. G., Yuliani, Y., & Panggalih, K. (2023). PROTOTYPE SISTEM PENDAFTARAN RAWAT JALAN PADA RSUD LARANTUKA NUSA TENGGARA TIMUR BERBASIS MOBILE. INTI Nusa Mandiri, 18(1), 37–44. https://doi.org/10.33480/inti.v18i1.4218

Husain, A., Haqy Aji Prastian, A., Ramadhan, A., & Jendral Sudirman No, J. (n.d.). Perancangan Sistem Absensi Online Menggunakan Android Guna Mempercepat Proses Kehadiran Karyawan Pada PT. Sintech Berkah Abadi. In Technomedia Journal (TMJ (Vol. 2, Issue 1).

Jarande, P. B., Pandhari Murakar, S., Sachidanand Vast, N., Prakash Ubale, N., Sanjay Saraf, S., Sspm, A., & Kankavli, C. (n.d.). Automatic Vaccum Cleaner Using Arduino.

Jiang, H., Yi, J., Zhou, K., & Zhu, X. (2019). A decision-making methodology for the cloud-based recycling service of smart products: a robot vacuum cleaner case study. International Journal of Computer Integrated Manufacturing, 32(1), 58–71. https://doi.org/10.1080/0951192X.2018.1535195

Josi, A. (n.d.). PENERAPAN METODE PROTOTIPING DALAM PEMBANGUNAN WEBSITE DESA. In JTI (Vol. 9, Issue 1).

Julianto Simatupang, & Setiawan Sianturi. (2019). PERANCANGAN SISTEM INFORMASIPEMESANAN TIKET BUSPADA PO.HANDOYO BERBASIS ONLINE. 3.

Kurniawan, H., Apriliah, W., Kurniawan, I., & Firmansyah, D. (n.d.). PENERAPAN METODE WATERFALL DALAM PERANCANGAN SISTEM INFORMASI PENGGAJIAN PADA SMK BINA KARYA KARAWANG 1. In Jurnal Interkom (Vol. 14, Issue 4).

Kurniawan, I., Dhoni, R., Saputra, D. A., Wahyudin, F. R., Mubais, A., Lunak, R. P., Balekambang, P., Rekayasa, J., Lunak, P., Bisnis, J. A., Politeknik, I., & Jepara, B. (2023). IMPLEMENTASI METODE PROTOTYPE PADA SISTEM INFORMASI DIGITAL ANGKRINGAN BERBASIS WEB DI KECAMATAN MAYONG. https://journal.unisnu.ac.id/JISTER/

Lasmana, D. S., & Fitriani, E. (n.d.). RANCANG BANGUN PROTOTYPE ROBOT PENGHISAP DEBU MENGGUNAKAN OPTICAL DUST SENSOR GP2Y1010AU0F. http://conference.binadarma.ac.id/index.php/BDCES

Noor Kamala Sari, N. (n.d.). PENGEMBANGAN MEDIA INFORMASI RUANG KULIAH PADA FAKULTAS TEKNIK UNIVERSITAS PALANGKA RAYA BERBASIS ANDROID DAN LOCATION BASED SERVICE (Vol. 13, Issue 2).

Nurhadi, & Muhammad Ridwan. (2022). Sistem Informasi Inventaris Berbasis Web Menggunakan Metode Prototype. Jurnal Multidisiplin Madani, 2(9), 3543–3550. https://doi.org/10.55927/mudima.v2i9.1143

Parween, R., Vega Heredia, M., Rayguru, M. M., Enjikalayil Abdulkader, R., & Elara, M. R. (2020). Autonomous Self-Reconfigurable Floor Cleaning Robot. IEEE Access, 8, 114433–114442. https://doi.org/10.1109/ACCESS.2020.2999202

Pendidikan, P. S., Fkip, F., Samudra, U., Kampus, J., No, M., Langsa Lama, K., Langsa, K., & Aceh, P. (n.d.). Daya Hisap Vacum Cleaner Sederhana. https://ejurnalunsam.id/index.php/JPFS

Ramdhan Hendrawan, A., Ridwan Fauzi, M., & Purnamasari, I. (n.d.). PEMBUATAN ROBOT MENGGUNAKAN SENSOR ULTRASONIC HC-SR04 BERBASIS MIKROKONTOROLER ATMEGA 328. http://www.bsi.ac.id

Sohor, S., Mardeni, Irawan, Y., & Sugiati. (2020). RANCANG BANGUN TEMPAT SAMPAH OTOMATIS MENGUNAKAN MIKROKONTROLER DAN SENSOR ULTASONIK DENGAN NOTIFIKASI TELEGRAM. Jurnal Ilmu Komputer, 9(2), 154–160. https://doi.org/10.33060/jik/2020/vol9.iss2.182

Sun, K. Y., Pernando, Y., & Safari, M. I. (2021). Perancangan Sistem IoT pada Smart Door Lock Menggunakan Aplikasi BLYNK. JUTSI (Jurnal Teknologi Dan Sistem Informasi), 1(3), 289–296. https://doi.org/10.33330/jutsi.v1i3.1360

Yosua D. Widiarto, M. E. I. N. M. D. P. (2018). Sistem Penggerak Robot Beroda Vacuum Cleaner Berbasis Mini Computer Raspberry pi. 7.

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Design Prototype Robot Vacuum Cleaner Based on Arduino Microcontroller with Autonomic Mode

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