DOI: https://doi.org/10.14710/vol15iss2pp216-220

IoT-based Recording of Waste Types and Weights in Waste Processing System

*Fauzan Ishlakhuddin  -  Informatics Engineering Department, Politeknik Negeri Indramayu , Jl. Raya Lohbener Lama No. 8, Indramayu, West Java, Indonesia, 45252, Indonesia
Fachrul Pralienka Bani Muhamad  -  Informatics Engineering Department, Politeknik Negeri Indramayu , Jl. Raya Lohbener Lama No. 8, Indramayu, West Java, Indonesia, 45252, Indonesia
Eka Ismantohadi  -  Informatics Engineering Department, Politeknik Negeri Indramayu , Jl. Raya Lohbener Lama No. 8, Indramayu, West Java, Indonesia, 45252, Indonesia
Miftahul Jannah  -  Informatics Engineering Department, Politeknik Negeri Indramayu , Jl. Raya Lohbener Lama No. 8, Indramayu, West Java, Indonesia, 45252, Indonesia
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Abstract

Effective waste management requires the separation of waste types into categories such as organic, non-organic, and recyclable. This is necessary because not all types of waste can be processed. Therefore, accurate recording of waste types and weights is crucial in waste processing. A common issue today is that waste data is still recorded manually, leading to a lack of accuracy in the records. This research aims to develop an IoT-based waste type recording tool that can accurately record the weight and type of waste by retrieving values from a scale and transmitting the data in real-time to a waste processing system. The device development method used is the prototype model. This research successfully connected to and retrieved values directly from the Sayaki T-18 digital scale, ensuring that the weight values sent to the system are more accurate. During the testing of the developed IoT device, it accurately recorded and transmitted the quantity and type of waste as specified by the user, and the data stored in the system matched the test data accurately.

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Keywords: IoT-based Waste Recording; Waste Processing System; Real-time Data Transmission; Waste Type Classification; Prototype Model Development

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Section: Research Articles
Language : EN
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  1. Afuan, L., Nofiyati, N., & Umayah, N. (2021). Rancang bangun sistem informasi bank sampah di Desa Paguyangan. Edumatic: Jurnal Pendidikan Informatika, 5(1), 21–30. https://doi.org/10.29408/edumatic.v5i1.3171
  2. Ahanger, T. A., & Aljumah, A. (2019). Internet of things: A comprehensive study of security issues and defense mechanisms. IEEE Access, 7, 11020–11028. https://doi.org/10.1109/ACCESS.2018.2876939
  3. Akomolafe, D. T., & Afeni, B. O. (2014). Using database management system to generate, manage and secure personal identification numbers (PIN). Journal of Software Engineering and Applications, 7(5), 461–469. https://doi.org/10.4236/jsea.2014.75043
  4. Fowler, M. (2004). UML distilled: A brief guide to the standard object modeling language (3rd ed.). Boston, MA: Addison-Wesley
  5. Gobai, K. R. M., Surya, B., & Syafri, S. (2021). Kinerja pengelolaan sampah perkotaan. Urban and Regional Studies Journal, 2(2), 37–45. https://doi.org/10.35965/ursj.v2i2.567
  6. Hossain, M. M., Fotouhi, M., & Hasan, R. (2015). Towards an analysis of security issues, challenges, and open problems in the internet of things. In 2015 IEEE World Congress on Services (pp. 21–28). IEEE. https://doi.org/10.1109/SERVICES.2015.12
  7. Juliandi. (2023). Model pengelolaan sampah berbasis sumber dengan sistem reduce-reuse-recycle (3R) di TPS 3R Desa Baktiseraga. Jurnal Pendidikan Geografi Undiksha, 10(3), 301–307. https://doi.org/10.23887/jjpg.v10i3.50529
  8. Junaidi, J., & Utama, A. A. (2023). Analisis pengelolaan sampah dengan prinsip 3R (reduce, reuse, recycle) (studi kasus di Desa Mamak Kabupaten Sumbawa). JISIP (Jurnal Ilmu Sosial dan Pendidikan), 7(1). https://doi.org/10.58258/jisip.v7i1.4509
  9. Ludvigsson, J. F., Otterblad-Olausson, P., Pettersson, B. U., & Ekbom, A. (2009). The Swedish personal identity number: Possibilities and pitfalls in healthcare and medical research. European Journal of Epidemiology, 24(11), 659–667. https://doi.org/10.1007/s10654-009-9350-y
  10. Martins, D. (2023). Pengendalian lampu berbasis IoT menggunakan Nodemcu dan sensor cahaya. HOAQ (High Education of Organization Archive Quality): Jurnal Teknologi Informasi, 14(1), 38–47. https://doi.org/10.52972/hoaq.vol14no1.p38-47
  11. Munawar, Z., Sastradipraja, C. K., Komalasari, R., Putri, N. I., Ma’sum, H., Mandowen, S. A., ... Nurwarsito, H. (2023). Fundamental Internet of Things (IoT): Memahami teori dan penerapannya. Bandung: Kaizen Media Publishing
  12. Nur Pasha, M. S., Supriyadi, T., & Hanifatunnisa, R. (2022). Digitalisasi sistem monitoring sampah rumahan berbasis Internet of Things. JITEL (Jurnal Ilmiah Telekomunikasi, Elektronika, dan Listrik Tenaga), 2(1), 25–34. https://doi.org/10.35313/jitel.v2.i1.2022.25-34
  13. Pressman, R. S. (2009). Software engineering: A practitioner’s approach (7th ed.). New York, NY: McGraw-Hill
  14. Sicari, S., Rizzardi, A., Grieco, L. A., & Coen-Porisini, A. (2015). Security, privacy and trust in Internet of Things: The road ahead. Computer Networks, 76, 146–164. https://doi.org/10.1016/j.comnet.2014.11.008
  15. 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
  16. Tamyiz, M., Hamidah, L. N., Widiyanti, A., & Rahmayanti, A. (2020). Pelatihan pengelolaan sampah rumah tangga di Desa Kedungsumur, Kecamatan Krembung, Kabupaten Sidoarjo. Journal of Science and Social Development, 1(1), 16–23. https://doi.org/10.55732/jossd.v1i1.162
  17. Undang-Undang Republik Indonesia Nomor 18 Tahun 2008 tentang Pengelolaan Sampah. (2008). Retrieved from https://peraturan.bpk.go.id/Details/39067/uu-no-18-tahun-2008
  18. Vaithyasubramanian, S. (2020). Authentication using robust primary PIN (personal identification number), multifactor authentication for credit card swipe and online transactions security. International Journal of Advanced Computer Science and Applications, 11(4). https://doi.org/10.14569/IJACSA.2020.0110471
  19. Wilianto, W., & Kurniawan, A. (2018). Sejarah, cara kerja dan manfaat Internet of Things. Matrix: Jurnal Manajemen Teknologi dan Informatika, 8(2), 36–42. https://doi.org/10.31940/matrix.v8i2.818
  20. Xu, L. D., He, W., & Li, S. (2014). Internet of things in industries: A survey. IEEE Transactions on Industrial Informatics, 10(4), 2233–2243. https://doi.org/10.1109/TII.2014.2300753
  21. Yudhanto, Y., & Azis, A. (2019). Pengantar teknologi Internet of Things (IoT). Surakarta: UNS Press

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