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Architectural Engineering and Design Management Volume 20, 2024 - Issue 3
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Articles

A BIM-based semantic approach for fund-allocation of building components

Ahmed Gouda Mohameda Faculty of Engineering, Construction Engineering and Management Department, The British University in Egypt, Cairo, EgyptCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0003-0202-9483
ORCID Icon &
Mohamed Marzoukb Construction Engineering and Management, Structural Engineering Department, Faculty of Engineering, Cairo University, EgyptORCID Iconhttps://orcid.org/0000-0002-8594-8452
ORCID Icon
Pages 471-493 | Received 20 Jun 2023, Accepted 29 Aug 2023, Published online: 02 Sep 2023

References

  • Ahmed, R., Nasiri, F., & Zayed, T. (2020). Neutrosophic-AHP-based GA model for renewals planning of hospital building assets. Proceedings, International Conference on Decision Aid Sciences and Application (DASA), 1–5.
  • Belpoliti, V., Nassif, R., Alzaabi, E., & Aljneibi, A. (2020). Multicriteria assessment for the functional-energy upgrade of the UAE school sector: A bottom-up approach promoting refurbishment versus new construction. Architectural Engineering and Design Management, 16(3), 167–190.
  • Bernardini, G., & Di Giuseppe, E. (2020). Towards a user-centered and condition-based approach in building operation and maintenance. Sustainability in Energy and Buildings, 163(1), 327–337.
  • Bocchini, P., & Frangopol, D. M. (2012). Restoration of bridge networks after an earthquake: Multicriteria intervention optimization. Earthquake Spectra, 28(2), 427–455. doi:10.1193/1.4000019
  • Bucoń, R., & Czarnigowska, A. (2021). A model to support long-term building maintenance planning for multifamily housing. Journal of Building Engineering, 44, 103000-1–103000-15. doi:10.1016/j.jobe.2021.103000
  • Chuang, T. Y., & Yang, M. J. (2023). Change component identification of BIM models for facility management based on time-variant BIMs or point clouds. Automation in Construction, 147, 104731.
  • Czerniawski, T., Ma, J. W., & Leite, F. (2021). Automated building change detection with amodal completion of point clouds. Automation in Construction, 124, 103568.
  • De La Garza, J. M., Akyildiz, S., Bish, D. R., & Krueger, D. A. (2011). Network-level optimization of pavement maintenance renewal strategies. Advanced Engineering Informatics, 25(4), 699–712. doi:10.1016/j.aei.2011.08.002
  • Edirisinghe, R., Setunge, S., & Zhang, G. (2015). Markov model—based building deterioration prediction and ISO factor analysis for building management. Journal of Management in Engineering, 31(6), 04015009-1–04015009-9. doi:10.1061/(ASCE)ME.1943-5479.0000359
  • Elbehairy, H., Elbeltagi, E., Hegazy, T., & Soudki, K. (2006). Comparison of two evolutionary algorithms for optimization of bridge deck repairs. Computer-Aided Civil and Infrastructure Engineering, 21(8), 561–572. doi:10.1111/j.1467-8667.2006.00458.x
  • El Hamshary, O., Abouhamad, M., & Marzouk, M. (2022). Integrated maintenance planning approach to optimize budget allocation for subway operating systems. Tunnelling and Underground Space Technology, 121, 104322.
  • Falorca, J. F. (2019). Main functions for building maintenance management: An outline application. International Journal of Building Pathology and Adaptation, 37(5), 490–509.
  • Farahani, A., Wallbaum, H., & Dalenbäck, J. O. (2019). Optimized maintenance and renovation scheduling in multifamily buildings – a systematic approach based on condition state and life cycle cost of building components. Construction Management and Economics, 37(3), 139–155. doi:10.1080/01446193.2018.1512750
  • Fay, M., Martimort, D., & Straub, S. (2021). Funding and financing infrastructure: The joint-use of public and private finance. Journal of Development Economics, 150, 102629. doi:10.1016/j.jdeveco.2021.102629
  • France-Mensah, J., Sankaran, B., & O'Brien, W. J. (2018). A Bi-objective highway maintenance and rehabilitation budget allocation approach for multiple funding categories. Construction Research Congress 2018, 444–454. doi:10.1061/9780784481295.045..
  • Godden, B. (2004). Sample size formulas. Journal of Statistics, 3(66), http://williamgodden.com/samplesizeformula.pdf.
  • Gouda Mohamed, A., & Mousa, A. (2022). As-is facility management approach using LiDAR-based building information modelling: a case study in Egypt. Journal of Facilities Management.
  • Grussing, M. N. (2015). Risk-based facility management approach for building components using a discrete markov process-predicting condition, reliability, and remaining service life. PhD Dissertation, School of Civil Engineering, University of Illinois at Urbana-Champaign.
  • Gurevich, U., Sacks, R., & Shrestha, P. (2017). BIM adoption by public facility agencies: Impacts on occupant value. Building Research & Information, 45(6), 610–630. doi:10.1080/09613218.2017.1289029
  • Heidari Mozaffar, M., & Varshosaz, M. (2016). Optimal placement of a terrestrial laser scanner with an emphasis on reducing occlusions. The Photogrammetric Record, 31(156), 374–393.
  • Jarząbek-Rychard, M., & Maas, H. G. (2023). Modeling of 3D geometry uncertainty in Scan-to-BIM automatic indoor reconstruction. Automation in Construction, 154, 105002.
  • Jiang, Y., Shu, J., Ye, J., & Zhao, W. (2023). Virtual trail assembly of prefabricated structures based on point cloud and BIM. Automation in Construction, 155, 105049.
  • Jin, Y., & Mukherjee, A. (2014). Markov chain applications in modelling facility condition deterioration. International Journal of Critical Infrastructures, 10(2), 93–112. doi:10.1504/IJCIS.2014.062965
  • Kim, P., Park, J., Cho, Y. K., & Kang, J. (2019). UAV-assisted autonomous mobile robot navigation for as-is 3D data collection and registration in cluttered environments. Automation in Construction, 106, 102918.
  • Kumar, V., & Teo, E. A. L. (2020). Perceived benefits and issues associated with COBie datasheet handling in the construction industry. Facilities, 39(5/6), 321–349.
  • Lin, Y. C., Lin, C. P., Hu, H. T., & Su, Y. C. (2018). Developing final as-built BIM model management system for owners during project closeout: A case study. Advanced Engineering Informatics, 36, 178–193. doi:10.1016/j.aei.2018.04.001
  • Liu, J., Cui, N., Cheng, G., Li, D., Ma, X., & Liao, Y. (2023). Towards the automated virtual trial assembly of large and complex steel members using terrestrial laser scanning and BIM. Engineering Structures, 291, 116448.
  • Lu, Q., & Lee, S. (2017). Image-based technologies for constructing as-is building information models for existing buildings. Journal of Computing in Civil Engineering, 31(4), 04017005-1–04017005-14. doi:10.1061/(ASCE)CP.1943-5487.0000652
  • Mohamed, A. G., Abdallah, M. R., & Marzouk, M. (2020). BIM and semantic web-based maintenance information for existing buildings. Automation in Construction, 116, 103209.
  • Mohamed, A. G., & Marzouk, M. (2021). Building condition assessment using artificial neural network and structural equations. Expert Systems with Applications, 186, 115743.
  • Mohseni, H., Setunge, S., Zhang, G., Edirisinghe, R., & Wakefield, R. (2012). Deterioration prediction for community buildings in Australia. The International Journal of the Constructed Environment, 1(4), 175–196. doi:10.18848/2154-8587/CGP/v01i04/37498
  • Park, S., Yoon, S., Ju, S., & Heo, J. (2023). BIM-based scan planning for scanning with a quadruped walking robot. Automation in Construction, 152, 104911.
  • Prieto, S. A., Quintana, B., Adán, A., & Vázquez, A. S. (2017). As-is building-structure reconstruction from a probabilistic next best scan approach. Robotics and Autonomous Systems, 94, 186–207.
  • Saad, D. A., Elyamani, A., Hassan, M., & Mourad, S. (2019). A fund-allocation optimization framework for prioritizing historic structures conservation projects - An application to historic Cairo. Proceedings of Canadian Society of Civil Engineers Annual Conference, Laval, 1–10. https://scholar.cu.edu.eg/?q=ahmedelyamani/files/paperpdfversion_46_0227111324_0.pdf.
  • Sedeh, O. M., Ostadi, B., & Zagia, F. (2021). A novel hybrid GA-PSO optimization technique for multi-location facility maintenance scheduling problem. Journal of Building Engineering, 40, 102348-1–102348-11. doi:10.1016/j.jobe.2021.102348
  • Tran, H., & Khoshelham, K. (2019). Building change detection through comparison of a lidar scan with a building information model. The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, XLII-2/W13, 889–893.
  • Vanier, D. J., Tesfamariam, S., Sadiq, R., & Lounis, Z. (2006). Decision models to prioritize maintenance and renewal alternatives. Proceedings of the Joint International Conference on Computing and Decision Making in Civil and Building Engineering, Montréal, QC, Canada, 2594–2603. https://www.academia.edu/2616964/Decision_models_to_prioritize_maintenance_and_renewal_alternatives.
  • Wakisaka, E., Kanai, S., & Date, H. (2018). Model-based next-best-view planning of terrestrial laser scanner for HVAC facility renovation. Computer-Aided Design and Applications, 15(3), 353–366.
  • Wang, B., Xia, X., Cheng, Z., Liu, L., & Fan, H. (2023). An impulsive and switched system based maintenance plan optimization in building energy retrofitting project. Applied Mathematical Modelling, 117, 479–493.
  • Wu, Y., Maravelias, C. T., Wenzel, M. J., ElBsat, M. N., & Turney, R. T. (2021). Predictive maintenance scheduling optimization of building heating, ventilation, and air conditioning systems. Energy and Buildings, 231, 110487-1–110487-13. doi:10.1016/j.enbuild.2020.110487
  • Zhang, C., Kalasapudi, V. S., & Tang, P. (2016). Rapid data quality oriented laser scan planning for dynamic construction environments. Advanced Engineering Informatics, 30(2), 218–232.
  • Zhang, Z., & Damnjanović, I. (2006). Applying method of moments to model reliability of pavements infrastructure. Journal of Transportation Engineering, 132(5), 416–424. doi:10.1061/(ASCE)0733-947X(2006)132:5(416)
  • Zhang, Z., Vosselman, G., Gerke, M., Persello, C., Tuia, D., & Yang, M. Y. (2019). Detecting building changes between airborne laser scanning and photogrammetric data. Remote Sensing, 11(20), 2417.

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