Uncovering the relationship among spatial vitality, perception, and environment of urban underground space in the metro zone
Tài liệu tham khảo
Chen, 2016, A preliminary study on path finding of underground walking space based on expectation, Journal of Underground Space and Engineering, 12, 1145
Chen, 2018, Present status and development trends of underground space in Chinese cities: Evaluation and analysis, Tunnelling and Underground Space Technology, 71, 253, 10.1016/j.tust.2017.08.027
Chen, X. S. (2015). Engineering Practice and Innovation of Underground Space Utilization in Metro Area. People’s traffic Publishing (in Chinese).
Cai, 2018, The relationship between urban residents’ public sports space perception and physical activity behavior, Journal of Chengdu Sport University., 44, 48
Chin, 2003, A partial least squares latent variable modeling approach for measuring interaction effects: Results from a Monte Carlo simulation study and an electronic mail emotion/adoption study, Information Systems Research, 14, 189, 10.1287/isre.14.2.189.16018
Chin, 2009, Bootstrap Cross-Validation Indices for PLS path model Assessment, 83
Chinese Society of Rock Mechanics and Engineering (CSRME). (2021). Standard for Quality Evaluation of Urban Underground Space, T/CSRME 012—2021, Beijing, China Planning Press. (in Chinese).
Dong, 2021, Quantitative assessment method on urban vitality of metro-led underground space based on multi-source data: A case study of Shanghai Inner Ring area, Tunnelling and Underground Space Technology, 116, 10.1016/j.tust.2021.104108
Fornell, 1981, Evaluating structural equations models with unobservable variables and measurement error, Journal of Marketing Research, 18, 39, 10.1177/002224378101800104
Fornell, 1996, The American customer satisfaction index: Nature, purpose, and findings, Journal of Marketing., 60, 7, 10.1177/002224299606000403
Hillier, 1984
Han, 2005, The application of systematic PLS method in the empirical study of satisfaction, Operations Research and Management., 14, 16
Wu, 2017, Study on pedestrian influence and passenger flow line in metro hub station, Architectural Journal., S1, 22
Guo, T.F., Zhang, J.B., & Dong, Y.H. (2020). Quantitative study on spatial vitality of urban underground public service system based on multi-source data. Modern Tunnelling Technology, 57(10), 24–33 (in Chinese).
Harbin Institute of Technology (HIT) (2014). Acoustic Environment Control Standard for Underground Architectural Space, CECS371—2014, Beijing, China Planning Press. (in Chinese).
Jacobs, 1992
John, 2018, Hong Kong’s urban planning experiment in enhancing pedestrian movement from underground space to the surface, Tunnelling and Underground Space Technology, 82, 1, 10.1016/j.tust.2018.07.025
Liu, 2019, Urban vitality area identification and pattern analysis from the perspective of time and space fusion, Sustainability, 11, 4032, 10.3390/su11154032
Maas, 1984
Lu, S.W., Huang, Y.P., & Zhao, Z.F. (2021). Correlation analysis of spatial form and block vitality in Chengdu City. Regional Research and Development., 40(1), 73–77 (in Chinese).
Ma, G.M., Yan, J.W., & Yang, X. (2016). Research on the vitality of underground commercial space based on the coordinated development of rail transit stations – Analysis of the underground commercial space of Jinhui Square in Tianjin. Journal of Modern Urban Research, 8, 100–105 (in Chinese).
Luo, K.Q., & Shen, Z.W. (2019). Study on the vitality of urban underground space based on space syntax: A case study of underground space connected by rail transit stations in Chengdu. Journal of South Architecture., 4, 116–121 (in Chinese).
Ministry of Housing and Urban-Rural Development of the People's Republic of China. (2012). Design Code for Heating Ventilation and Air Conditioning of Civil.
Buildings, GB 50736—2012. Beijing, China Building Industry Press. (in Chinese).
Nunnally, 1994
Ma, Y., Song, W., & Li, X. (2021). Coupling and mutual feedback of urban spatial cognition-preference-behavior—Based on the follow-up survey of graduate students from the University of Chinese Academy of Sciences. Tropical Geography, 41(5), 1023–1033 (in Chinese).
PLA University of Science and Technology & China Building Standard Design and Research Institute Co., LTD (PLAUST & CBSDRI). (2016). Design Standard for Indoor Environment of Urban Underground Space, CECS 441—2016. Beijing, China Planning Press (in Chinese).
Peng, 2019, Factors in the development of urban underground space surrounding metro stations: A case study of Osaka, Japan, Tunnelling and Underground Space Technology, 91, 10.1016/j.tust.2019.103009
Qiu, H.Z. (2011). When PLS meets with SEM: Issues and dialogues. Journal for Quantitative Research., 3(1), 1–34 (in Chinese).
Wang, Y.N. (2018). Study on people’s use preference of underground commercial space in subway station. Journal of Underground Space and Engineering., 14, 18–26 (in Chinese).
Xia, 2020, Analyzing spatial relationships between urban land use intensity and urban vitality at street block level: A case study of five Chinese megacities, Landscape Urban Plan, 193, 10.1016/j.landurbplan.2019.103669
Yue, 2019, Exploring the relationship between urban vitality and street centrality based on social network review data in Wuhan, China, Sustainability, 11, 4356, 10.3390/su11164356
Zacharias, 2015, Underground pedestrian trips—Trip generation, spatial distribution, and activities in the montréal underground, Tunnelling and Underground Space Technology, 46, 46, 10.1016/j.tust.2014.10.006
Zhang, 2019, Influence of commercial development of a connected underground space on evacuation capacity of existing subway stations, China Safety Science and Technology., 15, 124