Building Information Modeling (BIM) Utilization for 3D Fiscal Cadastre

https://doi.org/10.22146/ijg.41783

Sadikin Hendriatiningsih(1), Andri Hernandi(2), Asep Yusup Saptari(3), Ratri Widyastuti(4*), Dhendy Saragih(5)

(1) Institut Teknologi Bandung
(2) Institut Teknologi Bandung
(3) Institut Teknologi Bandung
(4) Institut Teknologi Bandung
(5) Institut Teknologi Bandung
(*) Corresponding Author

Abstract


Parcels data in Indonesia are still stored in 2-dimensional (2D) geometry which are integrated with other attribute data, such as the case with the Directorate of Land and Building Tax Indonesia. Whereas, building taxes assessment refers to a number of details that require the information to be stored in 3-dimensional (3D) forms. This study aims at the use of Building Information Modeling (BIM) technology, which widely used in building asset management in 3D. This research illustrates the usability of the role of BIM in assessing and managing building taxes in Indonesia. The point clouds were obtained using Terrestrial Laser Scanner (TLS) technology. The point clouds processed so that it can form 3-dimensional geometrical apartment. The attributes of the 3-dimensional model integrated with the geometric model using the BIM concept. The results analyzed to assess whether BIM concept was able to fulfill the needs of the 3D fiscal cadastre in Indonesia.

Keywords


BIM; TLS; building tax

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References

Akca, D., Freeman, M., Sargent, I., & Gruen, A. (2010). Quality Assessment of 3D Building Data. The Photogrametric Record 25 (132), 339 - 355.

Barus, B. R., Prasetyo, Y., & Hani'ah. (2017). Analisis Akurasi Pemodelan 3D Menggunakan Metode Close Range Photogrammetry (CRP), Unmanned Aerial Vehicle (UAV) dan Terrestrial Laser Scanner (TLS). Jurnal Geodesi Undip.

Biljecki, F., Zhao, J., Stoter, J., & Ledoux, H. (2013). Revisiting The Concept of Level of Detail in 3D City Modelling. ISPRS Annals of The Photogrammetry, Remote Sensing and Spatial Information Sciences (pp. 63-74). Istanbul: ISPRS.

Bird, R. M., & Slack, E. (2002). Land and Property Taxation: A Review. Retrieved from http://www1.worldbank.org/publicsector/decentralization/June2003Seminar/LandPropertyTaxation.pdf

Demchak, G., Krygiel, E., & Dzambazova, T. (2009). Introducing Revit Architecture 2010: BIM for Beginners. New Indiana: Wiley Publishing, Inc.

Elberink, S. O., & Vosselman, G. (2009). Building Reconstruction by Target Based Graph Matching on Incomplete Laser Data: Analysis and Limitations. Sensors 9 (8), 6101 - 6118.

EUBIM. (2017). Handbook for The Introduction of Building Information Modeling by The European Public Sector.

Kerosuo, H., Miettinen, R., Paavola, S., Maki, T., & Korpela, J. (2015). Challenges of the expansive1 use of Building Information Modeling (BIM) in construction projects. journal of ABEPRO.

Kreider, R., & Messner, J. (2013). The Uses of BIM: Classifying and Selecting BIM Uses. Pennsylvania: The Pennsylvania State University, University Park.

Laing, R., Leon, M., Mahdjoubi, L., & Scott, J. (2014). Integrating Rapid 3D Data Collection Techniques to Support BIM Design Decision Making. International Conference on Design and Decision Support System in Architecture and Urban Planning (pp. 120-130). Elsevier.

Maurer, R., & Paugam, A. (2000). Reform toward Ad Valorem Property Tax in Transition Economics: Fiscal and Land Use Benefits. The World Bank. Retrieved from http://www1.worldbank.org/publicsector/decentralization/June2003Seminar/paugnam.pdf

Mordue, S., Swaddle, P., & Philip, D. (2016). Building Information Modeling for Dummies. Great Britain: John Willey & Sons, Ltd.

National Institute of Building Science (NIBS). (2015). National BIM Standard-United States (Version 3). NIBS. Retrieved from https://www.nationalbimstandard.org/files/NBIMS-US_FactSheet_2015.pdf

Oosterom, P. V., Lemmen, C., Thompson, R., Janecka, K., Zlatanova, S., & Kalantari, M. (2018). 3D Cadastral Information Modelling. International Federation of Surveyors (FIG) (pp. 95-131). Turkey: International Federation of Surveyors (FIG).

Quentiro, M., Genechten, B., Bruyne, M., Poelman, R., Hankar, M., Barnes, S., & Taronger, J. (2008). Theory and Practice on Terrestrial Laser Scanning: Training Material Based on Practical Applications (4 ed.). Valencia, Spain: Universidad Politecnica de Valencia Editorial.

Reshetyuk, Y. (2009). Self-Calibration and Direct Georeferencing in Terrestrial Laser Scanning (Doctoral dissertation). Stockholm, Sweden: Royal Institute of Technology (KTH).

Setiawan, A. (2016). Pemetaan Topografi Menggunakan Teknologi Laser Scanner (Studi Kasus: Daerah Kiara Payung Sumedang) (Bachelor's thesis). Bandung, Indonesia: Institut Teknologi Bandung.

Shaikh, A. A., Raju, R., Malim, N. L., & Jayaraj, G. K. (2016). Global Status of Building Information Modeling (BIM) - A Review. International Journal on Recent and Innovation Trends in COmputing and Communication, 4(3), 300-303.

Stoter, J. E. (2004). 3D Cadastre (Doctoral dissertation). Delft, Netherlands: Faculty of Geo-Information Science and Earth Observation, University of Twente.

Syahfitriane, T. (2018). Pembangunan Basis Data Spasial untuk Penentuan Pajak Bumi dan Bangunan Unit Hunian Apartemen di Kota Bandung (Studi Kasus: Apartemen Parahyangan Residence) (Bachelor's thesis). Bandung, Indonesia: Institut Teknologi Bandung.

Williamson, I.P. (2013). Cadastres and Land Information Systems in Common Law Jurisdictions. Survey Review Journal, 114-129.



DOI: https://doi.org/10.22146/ijg.41783

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