Application of Numerical Simulation Technology in Engineering Management and its Impact on Project Costs

[1] Owolabi, K. M. (2017). Robust and adaptive techniques for numerical simulation of nonlinear partial differential equations of fractional order. Communications in Nonlinear Science and Numerical Simulation, 44, 304-317. OwolabiK. M. (2017). Robust and adaptive techniques for numerical simulation of nonlinear partial differential equations of fractional order. Communications in Nonlinear Science and Numerical Simulation, 44, 304-317.Search in Google Scholar

[2] Kik, T. (2020). Computational techniques in numerical simulations of arc and laser welding processes. Materials, 13(3), 608. KikT. (2020). Computational techniques in numerical simulations of arc and laser welding processes. Materials, 13(3), 608.Search in Google Scholar

[3] Huang, L., Liao, X., Fan, M., Wu, S., Tan, P., & Yang, L. (2024). Experimental and numerical simulation technique for hydraulic fracturing of shale formations. Advances in Geo-Energy Research, 13(2), 83-88. HuangL.LiaoX.FanM.WuS.TanP. & YangL. (2024). Experimental and numerical simulation technique for hydraulic fracturing of shale formations. Advances in Geo-Energy Research, 13(2), 83-88.Search in Google Scholar

[4] Xue, Y., Liu, R., Li, Z., & Han, D. (2020). A review for numerical simulation methods of ship–ice interaction. Ocean Engineering, 215, 107853. XueY.LiuR.LiZ. & HanD. (2020). A review for numerical simulation methods of ship–ice interaction. Ocean Engineering, 215, 107853.Search in Google Scholar

[5] Ghosh, A., Hassan, A. A., Alrafai, H. A., & Abdelrahim, S. K. A. (2024). A comprehensive study on electron and hole transport layers for designing and optimizing the efficiency of MoSe2-Based solar cells using numerical simulation techniques. Heliyon, 10(16). GhoshA.HassanA. A.AlrafaiH. A. & AbdelrahimS. K. A. (2024). A comprehensive study on electron and hole transport layers for designing and optimizing the efficiency of MoSe2-Based solar cells using numerical simulation techniques. Heliyon, 10(16).Search in Google Scholar

[6] Khoei, A. R., Vahab, M., & Hirmand, M. (2018). An enriched–FEM technique for numerical simulation of interacting discontinuities in naturally fractured porous media. Computer Methods in Applied Mechanics and Engineering, 331, 197-231. KhoeiA. R.VahabM. & HirmandM. (2018). An enriched–FEM technique for numerical simulation of interacting discontinuities in naturally fractured porous media. Computer Methods in Applied Mechanics and Engineering, 331, 197-231.Search in Google Scholar

[7] Gao, W., Veeresha, P., Prakasha, D. G., & Baskonus, H. M. (2021). New numerical simulation for fractional Benney–Lin equation arising in falling film problems using two novel techniques. Numerical Methods for Partial Differential Equations, 37(1), 210-243. GaoW.VeereshaP.PrakashaD. G. & BaskonusH. M. (2021). New numerical simulation for fractional Benney–Lin equation arising in falling film problems using two novel techniques. Numerical Methods for Partial Differential Equations, 37(1), 210-243.Search in Google Scholar

[8] Mou, B., He, B. J., Zhao, D. X., & Chau, K. W. (2017). Numerical simulation of the effects of building dimensional variation on wind pressure distribution. Engineering Applications of Computational Fluid Mechanics, 11(1), 293-309. MouB.HeB. J.ZhaoD. X. & ChauK. W. (2017). Numerical simulation of the effects of building dimensional variation on wind pressure distribution. Engineering Applications of Computational Fluid Mechanics, 11(1), 293-309.Search in Google Scholar

[9] Gabl, R., Gems, B., Plörer, M., Klar, R., Gschnitzer, T., Achleitner, S., & Aufleger, M. (2014). Numerical simulations in hydraulic engineering. Computational engineering, 195-224. GablR.GemsB.PlörerM.KlarR.GschnitzerT.AchleitnerS. & AuflegerM. (2014). Numerical simulations in hydraulic engineering. Computational engineering, 195-224.Search in Google Scholar

[10] Han, X., & Liu, J. (2017). Numerical simulation-based design. SPRINGER Verlag, SINGAPOR. HanX. & LiuJ. (2017). Numerical simulation-based design. SPRINGER Verlag, SINGAPOR.Search in Google Scholar

[11] Alashwal, A. M., & Chew, M. Y. (2017). Simulation techniques for cost management and performance in construction projects in Malaysia. Built Environment Project and Asset Management, 7(5), 534-545. AlashwalA. M. & ChewM. Y. (2017). Simulation techniques for cost management and performance in construction projects in Malaysia. Built Environment Project and Asset Management, 7(5), 534-545.Search in Google Scholar

[12] Pellicer, E., Yepes, V., Teixeira, J. C., Moura, H. P., & Catalá, J. (2013). Construction management. John Wiley & Sons. PellicerE.YepesV.TeixeiraJ. C.MouraH. P. & CataláJ. (2013). Construction management. John Wiley & Sons.Search in Google Scholar

[13] Demirkesen, S., & Ozorhon, B. (2017). Impact of integration management on construction project management performance. International journal of project management, 35(8), 1639-1654. DemirkesenS. & OzorhonB. (2017). Impact of integration management on construction project management performance. International journal of project management, 35(8), 1639-1654.Search in Google Scholar

[14] Jackson, B. J. (2020). Construction management JumpStart: the best first step toward a career in construction management. John Wiley & Sons. JacksonB. J. (2020). Construction management JumpStart: the best first step toward a career in construction management. John Wiley & Sons.Search in Google Scholar

[15] Griffith, A., & Watson, P. (2017). Construction management: Principles and practice. Bloomsbury Publishing. GriffithA. & WatsonP. (2017). Construction management: Principles and practice. Bloomsbury Publishing.Search in Google Scholar

[16] Hardin, B., & McCool, D. (2015). BIM and construction management: proven tools, methods, and workflows. John Wiley & Sons. HardinB. & McCoolD. (2015). BIM and construction management: proven tools, methods, and workflows. John Wiley & Sons.Search in Google Scholar

[17] Zhou, D., Pei, B., Li, X., Jiang, D., & Wen, L. (2024). Innovative BIM technology application in the construction management of highway. Scientific reports, 14(1), 15298. ZhouD.PeiB.LiX.JiangD. & WenL. (2024). Innovative BIM technology application in the construction management of highway. Scientific reports, 14(1), 15298.Search in Google Scholar

[18] Demirkesen, S., & Ozorhon, B. (2017). Measuring project management performance: Case of construction industry. Engineering Management Journal, 29(4), 258-277. DemirkesenS. & OzorhonB. (2017). Measuring project management performance: Case of construction industry. Engineering Management Journal, 29(4), 258-277.Search in Google Scholar

[19] Harris, F., McCaffer, R., Baldwin, A., & Edum-Fotwe, F. (2020). Modern construction management. John Wiley & Sons. HarrisF.McCafferR.BaldwinA. & Edum-FotweF. (2020). Modern construction management. John Wiley & Sons.Search in Google Scholar

[20] Taleb, H., Ismail, S., Wahab, M. H., Mardiah, W. N., Rani, W. M., & Amat, R. C. (2017). An overview of project communication management in construction industry projects. Journal of Management, Economics, and Industrial Organization, 1(1), 1-9. TalebH.IsmailS.WahabM. H.MardiahW. N.RaniW. M. & AmatR. C. (2017). An overview of project communication management in construction industry projects. Journal of Management, Economics, and Industrial Organization, 1(1), 1-9.Search in Google Scholar

[21] Al-Hajj, A., & Zraunig, M. (2018). The impact of project management implementation on the successful completion of projects in construction. International Journal of Innovation, Management and Technology, 9(1), 21-27. Al-HajjA. & ZraunigM. (2018). The impact of project management implementation on the successful completion of projects in construction. International Journal of Innovation, Management and Technology, 9(1), 21-27.Search in Google Scholar