This work is licensed under the Creative Commons Attribution 4.0 International License.
Yue, Y., & Chang, J. (2021). Station-City Integration: Urban Space Ecological Transformation Research Based on Rail Transit. Human-Centered Urban Planning and Design in China: Volume II: Urban Design and Mobility, 41-64.Search in Google Scholar
Chen, J., Yan, Z., & Fan, R. (2023). Elements of the core area transport system oriented to station–city integration. Computers and Electrical Engineering, 110, 108842.Search in Google Scholar
Lunardon, A., Vladimirova, D., & Boucsein, B. (2023). How railway stations can transform urban mobility and the public realm: The stakeholders’ perspective. Journal of Urban Mobility, 3, 100047.Search in Google Scholar
Chowdhury, S., Hadas, Y., Gonzalez, V. A., & Schot, B. (2018). Public transport users’ and policy makers’ perceptions of integrated public transport systems. Transport Policy, 61, 75-83.Search in Google Scholar
Chauhan, V., Gupta, A., & Parida, M. (2021). Demystifying service quality of Multimodal Transportation Hub (MMTH) through measuring users’ satisfaction of public transport. Transport Policy, 102, 47-60.Search in Google Scholar
Li, Z., & Xu, W. A. (2019). Path decision modelling for passengers in the urban rail transit hub under the guidance of traffic signs. Journal of Ambient Intelligence and Humanized Computing, 10, 365-372.Search in Google Scholar
Yue, H., Zhang, M., Duan, Y., & Yang, B. (2019, November). Layout of Guidance Signs in Passenger Hubs based on Passenger Activity Line. In IOP Conference Series: Materials Science and Engineering (Vol. 688, No. 4, p. 044061). IOP Publishing.Search in Google Scholar
Suo, Y., Lei, B., Xun, T., Li, N., Lei, D., Luo, L., & Cao, X. (2023). Optimization Method of Subway Station Guide Sign Based on Pedestrian Walking Behavior. Sustainability, 15(17), 12690.Search in Google Scholar
Huang, L., Zhao, X., Liuxuan, L., & Jianhui, L. (2024). A study on the visual recognition patterns of multi-information guide signs based on eye movement data analysis. Accident Analysis & Prevention, 205, 107637.Search in Google Scholar
Heelan, P. A. (2023). Space-perception and the philosophy of science. Univ of California Press.Search in Google Scholar
Miragliotta, E., & Baccaglini-Frank, A. (2017, February). Visuo-spatial abilities and geometry: A first proposal of a theoretical framework for interpreting processes of visualization. In CERME 10.Search in Google Scholar
Qiao, W., Zhang, Z., He, C., Shen, B., & Liu, H. (2017, July). The Optimization and Adjustment of Passenger Transport Hub Based on the Urban Spatial Evolution. In 17th COTA International Conference of Transportation Professionals (pp. 3177-3184). Reston, VA: American Society of Civil Engineers.Search in Google Scholar
Chica-Olmo, J., Gachs-Sánchez, H., & Lizarraga, C. (2018). Route effect on the perception of public transport services quality. Transport Policy, 67, 40-48.Search in Google Scholar
El Ouadi, J., Errousso, H., Malhene, N., Benhadou, S., & Medromi, H. (2021). A machine-learning based hybrid algorithm for strategic location of urban bundling hubs to support shared public transport. Quality & Quantity, 1-44.Search in Google Scholar
Stadnichuk, V., Merten, L., Larisch, C., & Walther, G. (2024). Optimisation of mobility hub locations for a sustainable mobility system. Transportation Research Interdisciplinary Perspectives, 26, 101193.Search in Google Scholar
Kim, G., Yeo, D., Lee, J., & Kim, S. (2023). Simulating urban element design with pedestrian attention: visual saliency as aid for more visible wayfinding design. Land, 12(2), 394.Search in Google Scholar
Dong, W., Qin, T., Liao, H., Liu, Y., & Liu, J. (2020). Comparing the roles of landmark visual salience and semantic salience in visual guidance during indoor wayfinding. Cartography and Geographic Information Science, 47(3), 229-243.Search in Google Scholar
Tang, M., & Auffrey, C. (2018). Advanced digital tools for updating overcrowded rail stations: using eye tracking, virtual reality, and crowd simulation to support design decision-making. Urban rail transit, 4(4), 249-256.Search in Google Scholar
Hollander, J. B., Sussman, A., Lowitt, P., Angus, N., Situ, M., & Magnuson, A. (2023). Insights into wayfinding: Urban design exploration through the use of algorithmic eye-tracking software. Journal of Urban Design, 28(3), 274-295.Search in Google Scholar
Farahani, M., Razavi-Termeh, S. V., Sadeghi-Niaraki, A., & Choi, S. M. (2023). A Hybridization of Spatial Modeling and Deep Learning for People’s Visual Perception of Urban Landscapes. Sustainability, 15(13), 10403.Search in Google Scholar
Huang, X., Yuan, W., White, M., & Langenheim, N. (2022). A parametric framework to assess generative urban design proposals for transit-oriented development. Buildings, 12(11), 1971.Search in Google Scholar
Xuan, W., & Zhao, L. (2022). Research on correlation between spatial quality of urban streets and pedestrian walking characteristics in china based on street view big data. Journal of Urban Planning and Development, 148(4), 05022035.Search in Google Scholar
Li Shengming,Xue Linsong,Feng Lin,Yao Cuili & Wang Dong. (2022). Hybrid Convolutional- Transformer framework for drone-based few-shot weakly supervised object detection. Computers and Electrical Engineering.Search in Google Scholar
Wu Jun,Liu Shaoyu,Wang Zirui,Zhang Xiaoyu & Guo Runxia. (2023). Dynamic depth estimation of weakly textured objects based on light field speckle projection and adaptive step length of optical flow method. Measurement.Search in Google Scholar
Singh Piyush Bhushan,Singh Pawan,Dev Harsh & Chaurasia Brijesh Kumar. (2023). Glaucoma Classification Using Enhanced Deep Transfer Learning Models with Hybrid ROI Cropped Optic Disc Technique. SN Computer Science(6).Search in Google Scholar
