3D Modeling and Volume Estimation of Riverbed Layers Based on Sub Bottom Profiler Measurement Data

https://doi.org/10.22146/jgise.39974

Nurkhalis Rahili Rahili(1*), Bambang Kun Cahyono(2)

(1) Gadjah Mada University
(2) Gadjah Mada University
(*) Corresponding Author

Abstract


The river is one of the transportation routes for human beings, as well as the pipelines for oil and gas distribution, or as power cable lines and communications networks. In order to not disturb the pipe or cable due to the activity of the ship through the river, it is necessary to study the sediment from the river. This study aims to determine the type of sediment, the thickness of the sediment, the depth of sediment, and volume of the sediment itself. It can be done with acoustic measurements.

The measurement of the acoustic survey in this activity uses a sub bottom profiler Strata Box HD type Chirp. By using this tool, it can obtain sediment layer up to a certain depth. The result of the measurement will be interpreted to obtain the travel time of the acoustic wave as it reflected on the sediment layer. The travel time than processed and corrected with the tidal measurement data which made over 14 days to obtain the actual depth value from the result with the sub bottom profiler. The depth data then were quality tested based on reference IHO SP-44 2008 at order 1a.

This activity produces a 3D model of river layer, depth profile and sediment layer volume estimation. The result of the quality tested obtained corrected depth data has met the established standards of order 1a IHO SP-44 2008. Using a 95% confidence level, the test results in the first layer is 0.271 m with an error tolerance at 0.510 m. For the second layer has a data quality test results 0.491 m with a tolerance at 0.521 m. The result of depth profile is a long section and cross section. The long section indicates that in the deflection of the river area there is a steep decline compared to the area before and after the river deflection. In addition, the river deflection area has a thinner sedimentary layer. The volume estimation of sediment layers obtained in the area of the activity is 4932752.739 m3.


Full Text:

PDF


References

Anderson, N., dan Akingbade, A., 2002, Overview Of The Shallow Seismic Reflection Technique, The 2nd Annual Conference on the Application of Geophysical and NDT Methodologies to Transportation Facilities and Infrastructure, California.

Brammadi S, Nugraha, A.L., Sudarsono, B., dan Mudita, I., 2017, Analisis Pengolahan Data Multibeam Echosounder Menggunakan Perangkat Lunak MB-System dan Caris HIPS and SIPS Berdasarkan Standar S-44 IHO 2008, Jurnal Geodesi Undip Vol. 6, No. 4, Universitas Diponogoro, Semarang.

de Jong, C. D., Lachaoelle, G., Skone, S. dan Elema, I. A., 2002, Hydrography, Delft University Press, Delf, The Netherlands.

Fridayani, N. M. S., Kencana, I P. E. N., dan Sukarsa, K. G., 2012, Perbandingan Interpolasi Spasial Dengan Metode Ordinary dan Robust Kriging Pada Data Spasial Berpencilan, e-Jurnal Matematika Vol. 1, No. 1, Universitas Udayana, Badung.

Kearey, P., Brooks, M., dan Hill, I., 2002, An Introduction to Geophysical Exploration. (Third Edition), Cornwall: Blackwell Science Ltd.

Kusuma, Y.A., Djaja, R., dan Ibrahim, A.L., 2016, Pembuatan Peta Batimetri Dan Peta Profil Lapisan Tanah Dengan Menggunakan Data Multibeam Echosounder Dan Sub Bottom Profiler, Jurnal Online Mahasiswa Bidang Teknik Geodesi Vol. 1 No.1, Universiatas Pakuan, Bogor.

Kruk, Van Der, 2001, Reflection Seismic 1, Institut für Geophysik ETH, Zürich.

Nurdiyanto, B., Hartanto, E., Ngadmanto, D., Sunardi, B., dan Susilanto, P., 2011. Penentuan Tingkat Kekerasan Batuan Menggunakan Metode Seismik Refraksi, Jurnal Meteorologi dan Geofisika Vol. 12, No. 3, Badan Meteorologi Klimatologi dan Geofisika, Jakarta.

Levchenko, O. V., 2006, Survey Of Underwater Gas Pipelines On The Ob River With Parametric Sediment Echosounder SES, International Hydrographic Conference, Hydro’06-Evolutions in Hydrography, Belgium.

Park, Choon, 2008, What Is Seismic Survey?, http://parkseismic.com/Whatisseismicsurvey.html, (akses tanggal 26 Juni 2018).

Penrose, J. D. Siwabessy, P. J. W., Gavrilov, A., Parnum, I., Hamilton, L. J., Bickers, A., Brooke, B., Ryan, D. A., Kennedy, P., 2005, Technical Reaport 32: Acoustic Technique For Seabed Classification, CRC for Coastal Zone Estuary & Waterway Management.

Pramono, Gatot H., 2008, Akurasi Metode IDW dan Kriging Untuk Interpolasi Sebaran Sedimen Tersuspensi Di Maros, Sulawesi Selatan, Forum Geografi Vol. 22, No. 1, Univrsitas Muhamadiyah Surakarta, Surakarta.

Djunarsjah, E., dan Poerbandono, 2005, Survei Hidrografi, Cetakan Ke-1, PT Refika Aditama, Bandung.

Remondino, F. dan El-Hakim, S., 2006, Image-Based 3D Modelling: A Review, The Photogrammetric Record An International Journal of Photogrammetry, Vol. 21, No. 115, United Kingdom.

Rohman, S., Manik, H.M., Hestirianoto, T., dan Mudita, I., 2015, Analisis Dan Klasifikasi Sedimen Permukaan Dasar Laut Menggunakan Sub-Bottom Profiler, Jurnal Teknologi Perikanan dan Kelautan, Vol. 6, No. 1, Institut Pertanian Bogor, Bogor.

Warnana, Dwa D., 2008, Identifikasi Scouring sebagai Potensi Kelongsoran Tanggul Sungai Bengawan Solo berdasar Survei GPR (Studi Kasus Desa Widang, Kabupaten Tuban), Jurnal Fisika dan Aplikasinya Vol. 4, No. 2, Institut Teknologi Speuluh Nopember, Surabaya.

Tumewu, Lien, 1977, Route Survey, Institut Teknologi Bandung, Bandung.

Zhang, Cha, dan Chen, Tsuhan, 2001, Efficient Feature Extraction For 2D/3D Objects In Mesh Representation, Carnegie Mellon University, USA.



DOI: https://doi.org/10.22146/jgise.39974

Article Metrics

Abstract views : 1910 | views : 4076

Refbacks

  • There are currently no refbacks.


Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.


Journal of Geospatial Information Science and Engineering (JGISE) ISSN: 2623-1182 (Online) Email: jgise.ft@ugm.ac.id The Contents of this website is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.