- [1]Wan, X., Pu, H., Schonfeld, P., Song, T., Wei, L., Peng, L., Hu, J., & Zhang, M. (2023). Mountain railway alignment optimization based on landform recognition and presetting of dominating structures. USA: Computer-aided Civil and Infrastructure Engineering. DOI: 10.1111/mice.13073.
- [2]Pu, H., Cai, L., Song, T., Schonfeld, P., & Hu, J. (2023). Minimizing costs and carbon emissions in railway alignment optimization: A bi-objective model. Eng: Transportation Research Part D: Transport and Environment. DOI: 10.1016/j.trd.2023.103615.
- [3]Song, T., Schonfeld, P., & Pu, H. (2023). A Review of Alignment Optimization Research for Roads, Railways and Rail Transit Lines. USA: IEEE Transactions on Intelligent Transportation Systems. DOI: 10.1109/TITS.2023.3235685
- [4]Pu, H., Fan, X., Asce, S., Li, W., Zhang, W., Schonfeld, P., Asce, F., Fanghua, F., & Xu, Z. (2023). Realizing a Quick Partial BIM Update of Subgrade in Railway Stations. USA: Journal of Construction Engineering and Management. DOI:10.1061/JCEMD4.COENG- 13359.
- [5]Wei, L., Qiu, X., Pu, H., Schonfeld, P., Zhen, S., Zhou, Y., & Xu, Z. (2022). Concurrent Optimization of Subway Vertical Alignments and Station Elevations With Improved Particle Swarm Optimization Algorithm. USA: IEEE Transactions on Intelligent Transportation Systems. DOI: 10.1109/tits.2022.3195754
- [6]Zhang, H., Song, T., Schonfeld, P., Pu, H., Li, W., Hu, J., Liu, L. (2022). Vertical Alignment Optimization of Mountain Railways with Terrain-Driven Greedy Algorithm Improved by Monte Carlo Tree Search. USA: Computer-aided Civil and Infrastructure Engineering. DOI: 10.1111/mice.12923
- [7]Song,T., Pu, H., Schonfeld, P., Liang, Z., Zhang, M., Hu, J., Zhou, Y., Xu, Z. (2022). Mountain Railway Alignment Optimization Integrating Layouts of Large-scale Auxiliary Construction Projects [J]. USA: Computer-aided Civil and Infrastructure Engineering. DOI: 10.1111/mice.12839
- [8]Song, T., Pu, H., Schonfeld, P., Zhang, H., Li, W., Hu, J. (2021). Simultaneous Optimization of 3-D Alignments and Station Locations for Dedicated High-Speed Railways [J]. USA: Computer-Aided Civil and Infrastructure Engineering. DOI: 10.1111/mice.12739
- [9]Song, T., Pu, H., Schonfeld, P., Zhang, H., Li, W., Hu, J., Wang, J. (2021). Bi-objective Mountain Railway Alignment Optimization Incorporating Seismic Risk Assessment [J]. USA: Computer-Aided Civil and Infrastructure Engineering. 36: 143-163., 2021
- [10]Song, T., Pu, H., Schonfeld, P., Zhang, H., Li, W., Hu, J., Wang, J. (2020). Mountain Railway Alignment Optimization Considering Geological Impacts: A Cost-hazard Bi-objective Model [J]. USA: Computer-Aided Civil and Infrastructure Engineering, 35: 1365-1386.
- [11]Pu H., Song T., Schonfeld P., Li, W., Zhang, H., Wang, J., Hu, J., Peng, X. (2019). A three-dimensional distance transform for optimizing constrained mountain railway alignments [J]. USA: Computer-Aided Civil and Infrastructure Engineering. 34:972-990.
- [12]Li, W., Pu, H., Paul, S., Song, Z., Zhang, H., Wang, L., Wang J., Peng X., Peng L. (2019). A Method for Automatically Recreating the Horizontal Alignment Geometry of Existing Railways [J]. USA: Computer-Aided Civil and Infrastructure Engineering, 34(1) 71-94.
- [13]Li W., Pu, H., Schonfeld, P., Yang, J., Zhang, H., Wang, L., Xiong, J. (2017). Mountain Railway Alignment Optimization with Bidirectional Distance Transform and Genetic Algorithm [J]. USA: Computer-aided Civil and Infrastructure Engineering, 32(8), 691-709.
- [14]Pu, H., Fan, X., Schonfeld, P., Li., W., Zhang, W., Wei, F., Wang, P., Li, C. (2022). Extending IFC for Multi-Component Subgrade Modeling in A Railway Station. Netherlands: Automation in Construction, 141, 104433.
- [15]Li, W., Qiu, X., Pu, H., Schonfeld, P., Zhen, S., Zhou, Y., Xu, Z. (2022). Concurrent Optimization of Subway Vertical Alignments and Station Elevations with Improved Particle Swarm Optimization Algorithm. USA: IEEE Transactions on Intelligent Transportation Systems. DOI: 10.1109/TITS.2022.3195754
- [16]Li, W., Pu, H., Schonfeld, P., Zhang, H., Zheng, X. (2016). Methodology for Optimizing Constrained 3-dimensional Railway Alignments in Mountainous Terrain [J]. England: Transportation Research Part C: Emerging Technologies, 68, 549–565.
- [17]Zhang, H., Pu, H., Schonfeld, P., Song, T., Li, W., Wang, J., Peng, X., Hu, J. (2020). Multi-objective Railway Alignment Optimization Considering Costs and Environmental Impacts [J], Netherlands: Applied Soft Computing 89, 106105.
- [18]Pu, H., Song, T., Schonfeld, P., Li, W., Zhang, H., Hu, J., Peng, X., Wang, J. (2019). Mountain Railway Alignment Optimization Using Stepwise & Hybrid Particle Swarm Optimization Incorporating Genetic Operators [J]. Netherlands: Applied Soft Computing, 78, 41-57.
- [19]Song, T., Pu, H., Schonfeld, P., Zhang. H., Li, W., Peng, X., Hu, J., Liu, W. (2021). GIS-based Multi-criteria Railway Design with Spatial Environmental Considerations [J]. England: Applied Geography. 31, 102449.
- [20]Pu, H., Zhang, H., Li, W., Xiong, J., Hu, J. & Wang, J. (2019). Concurrent Optimization of Mountain Railway Alignment and Station Locations Using a Distance Transform Algorithm [J]. England: Computers & Industrial Engineering, 127, 1297-1314.