USING DRONES FOR LANDFILL MONITORING AND PROJECTION CALCULATION

Authors

  • Yackob Astor Politeknik Negeri Bandung, Indonesia., Indonesia
  • Aditia Febriansya Politeknik Negeri Bandung, Indonesia., Indonesia
  • Retno Utami Politeknik Negeri Bandung, Indonesia., Indonesia
  • Muhammad Rizki Firdaus Politeknik Negeri Bandung, Indonesia., Indonesia
  • Farhan Arradzumar Gustaman Politeknik Negeri Bandung, Indonesia., Indonesia
  • Saepul Fariz Politeknik Negeri Bandung, Indonesia., Indonesia

DOI:

https://doi.org/10.33603/jgst.v6i1.6733

Abstract

ABSTRACT: Until now, monitoring the landfill volume in the Sarimukti landfills is calculated by the ratio of trucks converted from tonnage to volume based on the density of the landfill. The various truck specifications and the landfill density conversion process affect the tonnage value. This has an impact on the accuracy of the landfill volume calculation results. This research uses drones as the main tool for monitoring Sarimukti landfills by making a 3D map of the landfill in 2021 as a reference for calculating the volume of existing landfill. The analysis was carried out by comparing the existing landfill volume with the projected landfill volume in 2025 according to the operational period of the landfills. The results of the analysis show that the Sarimukti landfills can no longer accommodate landfill by 2023.

Keywords: Drone, Landfill, Contour

References

F. Lavigne et al., “The 21 February 2005, catastrophic waste avalanche at Leuwigajah dumpsite, Bandung, Indonesia,” Geoenvironmental Disasters, vol. 1, no. 1, pp. 1–12, 2014, doi: 10.1186/s40677-014-0010-5.

V. Chamola, V. Hassija, V. Gupta, and M. Guizani, “A Comprehensive Review of the COVID-19 Pandemic and the Role of IoT, Drones, AI, Blockchain, and 5G in Managing its Impact,” IEEE Access, vol. 8, no. April, pp. 90225–90265, 2020, doi: 10.1109/ACCESS.2020.2992341.

Y. D. Ko and B. D. Song, “Application of UAVs for tourism security and safety,” Asia Pacific J. Mark. Logist., 2021, doi: 10.1108/APJML-07-2020-0476.

E. Ciampa, L. De Vito, and M. R. Pecce, “Practical issues on the use of drones for construction inspections,” J. Phys. Conf. Ser., vol. 1249, no. 1, 2019, doi: 10.1088/1742-6596/1249/1/012016.

F. Outay, H. A. Mengash, and M. Adnan, “Applications of unmanned aerial vehicle (UAV) in road safety, traffic and highway infrastructure management: Recent advances and challenges,” Transp. Res. Part A Policy Pract., vol. 141, no. October, pp. 116–129, 2020, doi: 10.1016/j.tra.2020.09.018.

H. Ren, Y. Zhao, W. Xiao, and Z. Hu, “A review of UAV monitoring in mining areas: current status and future perspectives,” Int. J. Coal Sci. Technol., vol. 6, no. 3, pp. 320–333, 2019, doi: 10.1007/s40789-019-00264-5.

Y. Hendra, “Perbandingan Sistem Pengelolaan Sampah di Indonesia dan Korea Selatan: Kajian 5 Aspek Pengelolaan Sampah,” Aspirasi, vol. 7, pp. 77–91, 2016.

Landfill Management Law Republik Indonesia, “Landfill Management Law Republik Indonesia,” Undang. Republik Indones. No. 18 Tahun 2008 tentang Pengelolaan Sampah, no. 1, pp. 5–26, 2008.

Kementrian Pekerjaan Umum, “Pedoman Pembentukan Kelembagaan TPA Regional,” pp. 1–64, 2009.

J. R. Jambeck et al., “the ocean,” vol. 347, no. 6223, 2015.

N. F. A. B. Baqiroh, “Timbulan Sampah Nasional Capai 64 juta ton per Tahun,” Bisnis.com, 2019. .

Menteri Pekerjaan Umum, “Peraturan Mentri Pekerjaan Umum Republik Indonesia Nomor/3/PRT/M/2013,” Tentang Penyelenggaraan Prasarana dan Sarana persampahan dalam Penanganan Sampah Rumah Tangga Dan Sampah Sejenis Sampah Rumah Tangga, pp. 1–374, 2013.

Badan Standarisasi Nasional, “Metode pengambilan dan pengukuran contoh timbulan dan komposisi sampah perkotaan SNI 19-3964-1994.” Badan Standarisasi Nasional, 1994.

SNI 19-3964-1994, “Metode pengambilan dan pengukuran contoh timbulan dan komposisi sampah perkotaan,” Standar Nas. Indones., 1994.

dronedeploy.com, “Volume Measurement with Drones,” DroneDeploy. .

J. C. Padró, V. Carabassa, J. Balagué, L. Brotons, J. M. Alcañiz, and X. Pons, “Monitoring opencast mine restorations using Unmanned Aerial System (UAS) imagery,” Sci. Total Environ., vol. 657, pp. 1602–1614, 2019, doi: 10.1016/j.scitotenv.2018.12.156.

K. Johansen, P. D. Erskine, and M. F. McCabe, “Using Unmanned Aerial Vehicles to assess the rehabilitation performance of open cut coal mines,” J. Clean. Prod., vol. 209, pp. 819–833, 2019, doi: https://doi.org/10.1016/j.jclepro.2018.10.287.

Downloads

Published

2022-05-01

Citation Check