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Ye, D. (2021). An algorithm for construction project cost forecast based on particle swarm optimization-guided bp neural network. Scientific programming(Pt.9), 2021.Search in Google Scholar
Lin, X., & Lu, Y. (2020). Research on mathematical model of cost budget in the early stage of assembly construction project based on improved neural network algorithm. Mathematical Problems in Engineering, 2020, 1-7.Search in Google Scholar
Ugur, L. O., Kanit, R., Erdal, H., Namli, E., Erdal, H. I., & Baykan, U. N., et al. (2019). Enhanced predictive models for construction costs: a case study of turkish mass housing sector. Computational Economics, 53(4), 1403-1419.Search in Google Scholar
He, L., & Zhang, L. (2017). Dynamic priority rule-based forward-backward heuristic algorithm for resource levelling problem in construction project. Journal of the Operational Research Society.Search in Google Scholar
Karlsson, I., Johan Rootzén, & Johnsson, F. (2020). Reaching net-zero carbon emissions in construction supply chains – analysis of a swedish road construction project. Renewable and Sustainable Energy Reviews, 120, 109651-.Search in Google Scholar
Pilger, J. D., Machado, N. L., Lawisch-Rodriguez, A. D. A., Ana Letícia Zappe, & Rodriguez-Lopez, D.Search in Google Scholar
A. (2020). Environmental impacts and cost overrun derived from adjustments of a road construction project setting. Journal of Cleaner Production, 256, 120731.Search in Google Scholar
Daopeng, W., Jifei, F., Hanliang, F., & Bing, Z. (2018). Research on optimization of big data construction engineering quality management based on rnn-lstm. Complexity, 2018, 1-16.Search in Google Scholar
Han, C., Tang, F., Ma, T., Gu, L., & Tong, Z. (2022). Construction quality evaluation of asphalt pavement based on bim and gis. Automation in construction.Search in Google Scholar
Zhang, K., & Tsai, J. S. (2021). Identification of critical factors influencing prefabricated construction quality and their mutual relationship. Sustainability, 13.Search in Google Scholar
Kim, J., Lim, J., Lim, H. C., & Kim, D. Y. (2022). Improving sustainable project success strategies focused on cost and schedule for electrical construction project management. Sustainability, 14.Search in Google Scholar
Arthur, L., C., Antoine, Keith, & R., et al. (2018). Timing of cost certainty in highway construction project delivery: perceptions versus empirical results. Transportation research record, 2672(26), 88-95.Search in Google Scholar
Ferraioli, M., & Mandara, A. (2017). Base isolation for seismic retrofitting of a multiple building structure: design, construction, and assessment. Mathematical Problems in Engineering, 2017, 1-24.Search in Google Scholar
Prayogo, D., Cheng, M. Y., Wu, Y. W., Herdany, A. A., & Prayogo, H. (2018). Differential big bang - big crunch algorithm for construction-engineering design optimization. Automation in Construction, 85(JAN.), 290-304.Search in Google Scholar
Adhikari, P., Ng, K. W., Gebreslasie, Y. Z., Wulff, S. S., & Sullivan, T. A. (2020). Geomaterial classification criteria for design and construction of driven steel h-piles. Canadian Geotechnical Journal, 57.Search in Google Scholar
Hong, S. H., Lee, S. K., & Yu, J. H. (2019). Automated management of green building material information using web crawling and ontology. Automation in Construction, 102(JUN.), 230-244.Search in Google Scholar
Zahedi, L., & Lu, M. (2022). Generating labour cost budget for a construction-oriented fabrication facility: simulation-based resource scheduling approach. Canadian Journal of Civil Engineering(6), 49.Search in Google Scholar
Galagali, A. A. (2017). Time-cost-quality trade-off in construction project management. International Journal of Civil Engineering, 4(8), 24-31.Search in Google Scholar
Reynoso, OF, de, la, Rosa, & AB, et al. (2017). Wood frame house construction project in mexico. REV CONSTR, 2017,16(2)(-), 307-322.Search in Google Scholar
Gaur, S., & Tawalare, A. (2022). Investigating the role of bim in stakeholder management: evidence from a metro-rail project. Journal of management in engineering(1), 38.Search in Google Scholar
Yin, Y., Choi, K., Jeong, H. D., & Touran, A. (2022). Integration of schedule, cost, traffic, and risk into the determination of construction contract times. Journal of management in engineering.Search in Google Scholar
Lin, T., Yi, T., Zhang, C., & Liu, J. (2019). Intelligent prediction of the construction cost of substation projects using support vector machine optimized by particle swarm optimization. Mathematical Problems in Engineering, 2019.Search in Google Scholar
Plebankiewicz, E., & Wieczorek, D. (2020). Prediction of cost overrun risk in construction projects. Sustainability, 12(22), 9341.Search in Google Scholar
Yang, K., Kim, K., & Go, S. (2021). Towards effective safety cost budgeting for apartmentconstruction: a case study of occupational safety and health expenses in south korea. Sustainability, 13(3), 1335.Search in Google Scholar
Abdul Nabi, M., & El-Adaway, I. H. (2021). Understanding the key risks affecting cost and schedule performance of modular construction projects. Journal of management in engineering(4), 37.Search in Google Scholar
Ding, X., & Lu, Q. (2020). Construction cost management strategy based on bim technology and neural network model. Journal of Intelligent and Fuzzy Systems(6), 1-13.Search in Google Scholar
Huang, L., Pradhan, R., Dutta, S., & Cai, Y. (2022). Bim4d-based scheduling for assembling and lifting in precast-enabled construction. Automation in construction(Jan.), 133.Search in Google Scholar
Collinge, W. H., Farghaly, K., Mosleh, M. H., Manu, P., Cheung, C. M., & Osorio-Sandoval, C. A. (2022). Bim-based construction safety risk library. Automation in construction.Search in Google Scholar