EDP Sciences logo
Web of Conferences logo
Search
Menu
All issues Volume 683 (2026) E3S Web Conf., 683 (2026) 02001 References
Open Access
Issue
E3S Web Conf.
Volume 683, 2026
2025 2nd International Conference on Environment Engineering, Urban Planning and Design (EEUPD 2025)
Article Number 02001
Number of page(s) 11
Section Environmental Ecology and Sustainable Development
DOI https://doi.org/10.1051/e3sconf/202668302001
Published online 09 January 2026
  1. Agrawal N, Elliott M and Simonovic S 2020 Risk and Resilience: A Case of Perception versus Reality in Flood Management Water 12 1254 [Google Scholar]
  2. Leichenko R 2011 Climate change and urban resilience Current Opinion in Environmental Sustainability 3 164–8 [Google Scholar]
  3. Adediran I A, Isah K O, Ogbonna A E and Badmus S K 2023 A Global Analysis of the Macroeconomic Effects of Climate Change Asian Economics Letters 4 [Google Scholar]
  4. HUO C, WANG K, and GAO L 2023 National flood and drought disaster prevention in China in 2023 China Flood & Drought Management 33 1–4 [Google Scholar]
  5. Xia J, Zhang Y, Xiong L, He S, Wang L and Yu Z 2017 Opportunities and challenges of the Sponge City construction related to urban water issues in China Sci. China Earth Sci. 60 652–8 [Google Scholar]
  6. Saravi S, Kalawsky R, Joannou D, Rivas Casado M, Fu G and Meng F 2019 Use of Artificial Intelligence to Improve Resilience and Preparedness Against Adverse Flood Events Water 11 973 [Google Scholar]
  7. Tang J, Zhao P, Gong Z, Zhao H, Huang F, Li J, Chen Z, Yu L and Chen J 2023 Resilience patterns of human mobility in response to extreme urban floods National Science Review 10 nwad097 [Google Scholar]
  8. Zhong M, Lin K, Tang G, Zhang Q, Hong Y and Chen X 2020 A Framework to Evaluate Community Resilience to Urban Floods: A Case Study in Three Communities Sustainability 12 1521 [Google Scholar]
  9. Chen Y, Yu B, Shu B, Yang L and Wang R 2023 Exploring the spatiotemporal patterns and correlates of urban vitality: Temporal and spatial heterogeneity Sustainable Cities and Society 91 104440 [Google Scholar]
  10. Zhou C, Fu L, Xue Y, Wang Z and Zhang Y 2022 Using multi-source data to understand the factors affecting mini-park visitation in Yancheng Environment and Planning B: Urban Analytics and City Science 49 754–70 [Google Scholar]
  11. Yang J 2021 Elaborating non-linear associations and synergies of subway access and land uses with urban vitality in Shenzhen [Google Scholar]
  12. Ouyang J, Fan H, Wang L, Zhu D and Yang M 2022 Revealing urban vibrancy stability based on human activity time-series Sustainable Cities and Society 85 104053 [Google Scholar]
  13. Qin S, Yang J, Feng Y and Yan S 2021 Spatiotemporal vitality and influencing factors of urban parks based on multi-source data: A case study of Nanjing Chin. Landsc. Archit 37 68–73 [Google Scholar]
  14. Meng Y and Xing H 2019 Exploring the relationship between landscape characteristics and urban vibrancy: A case study using morphology and review data Cities 95 102389 [Google Scholar]
  15. [15] LUO S, ZHANG Z, YANG Z, and LUO X 2024 Study on the Spatial and Temporal Characteristics and Influencing Factors of Vitality of Urban Waterfront Parks: A Case Study Based on Kunming City South Architecture/Nanfang Jianzhu 69–77 [Google Scholar]
  16. Rahman Md M, Siddique S, Kamal M, Rifat R H and Gupta K D 2024 UAV (Unmanned Aerial Vehicle): Diverse Applications of UAV Datasets in Segmentation, Classification, Detection, and Tracking Algorithms 17 594 [Google Scholar]
  17. Ullah F, Khan S I, Munawar H S, Qadir Z and Qayyum S 2021 UAV Based Spatiotemporal Analysis of the 2019–2020 New South Wales Bushfires Sustainability 13 10207 [Google Scholar]
  18. Hao H and Wang Y 2020 Leveraging multimodal social media data for rapid disaster damage assessment International Journal of Disaster Risk Reduction 51 101760 [CrossRef] [Google Scholar]
  19. Anon Resilience patterns of human mobility in response to extreme urban floods [Google Scholar]
  20. Han J-C, Zheng W, Liu Z, Zhou Y, Huang Y and Li B 2022 Downscaling of Precipitation for Climate Change Projections Using Multiple Machine Learning Techniques: Case Study of Shenzhen City, China J. Water Resour. Plann. Manage. 148 [Google Scholar]
  21. SONG L, CHEN J and LIU Z 2024 Retrospective simulation and analysis on “9ꞏ 7” extraordinary rainstorm and flood in the Shenzhen City: taking the Guanlan watershed of the Longhua District as an example China Flood & Drought Management 34 19–23 [Google Scholar]
  22. Yang L, Liang Y, He B, Yang H and Lin D 2023 COVID-19 moderates the association between to- metro and by-metro accessibility and house prices Transportation Research Part D: Transport and Environment 114 103571 [Google Scholar]
  23. Keating A, Campbell K, Szoenyi M, McQuistan C, Nash D and Burer M 2016 Development and testing of a community flood resilience measurement tool [Google Scholar]
  24. Liang Y, Wang C, Chen G and Xie Z 2024 Evaluation framework ACR-UFDR for urban form disaster resilience under rainstorm and flood scenarios: A case study in Nanjing, China Sustainable Cities and Society 107 105424 [Google Scholar]
  25. Bai Z, Huang S, Wang L and Qi J 2025 Refined understanding of street vitality: comparing the spatial effects of pedestrian vitality and cycling vitality and the spatial heterogeneity of factors International Journal of Digital Earth 18 2501769 [Google Scholar]
  26. Guo X, Chen H and Yang X 2021 An Evaluation of Street Dynamic Vitality and Its Influential Factors Based on Multi-Source Big Data IJGI 10 143 [Google Scholar]
  27. Yue Y, Zhuang Y, Yeh A G O, Xie J-Y, Ma C-L and Li Q-Q 2017 Measurements of POI-based mixed use and their relationships with neighbourhood vibrancy International Journal of Geographical Information Science 31 658–75 [Google Scholar]
  28. Li M, Liu J, Lin Y, Xiao L and Zhou J 2021 Revitalizing historic districts: Identifying built environment predictors for street vibrancy based on urban sensor data Cities 117 103305 [Google Scholar]
  29. Yan X, Pei T, Gong X, Fu Z and Liu Y 2025 Assessing differences in work intensity resilience to pandemic outbreaks using large-scale mobile phone data International Journal of Applied Earth Observation and Geoinformation 136 104343 [Google Scholar]
  30. [30] Hong B, Bonczak B J, Gupta A and Kontokosta C E 2021 Measuring inequality in community resilience to natural disasters using large-scale mobility data Nat Commun 12 1870 [Google Scholar]
  31. Huang X, Li Z, Wang C and Ning H 2020 Identifying disaster related social media for rapid response: a visual-textual fused CNN architecture International Journal of Digital Earth 13 1017–39 [Google Scholar]
  32. Lin Y, Peng C, Chen P and Zhang M 2022 Conflict or synergy? Analysis of economic-social-infrastructure-ecological resilience and their coupling coordination in the Yangtze River economic Belt, China Ecological Indicators 142 109194 [Google Scholar]
  33. Zhou M, He Q, Gu Y, Wang K and Shen Z 2025 Urban Flood Resilience Assessment of Prefecture-Level Cities in Yangtze River Delta IJGI 14 108 [Google Scholar]
  34. MacQueen J 1967 Multivariate observations Proceedings ofthe 5th Berkeley Symposium on Mathematical Statisticsand Probability vol 1 pp 281–97 [Google Scholar]
  35. Chen A S, Hammond M J, Djordjević S, Butler D, Khan D M and Veerbeek W 2016 From hazard to impact: flood damage assessment tools for mega cities Nat Hazards 82 857–90 [Google Scholar]
  36. Miller J D, Kim H, Kjeldsen T R, Packman J, Grebby S and Dearden R 2014 Assessing the impact of urbanization on storm runoff in a peri-urban catchment using historical change in impervious cover Journal of Hydrology 515 59–70 [Google Scholar]
  37. Lee Y and Brody S D 2018 Examining the impact of land use on flood losses in Seoul, Korea Land Use Policy 70 500–9 [Google Scholar]
  38. Li H, Han Y, Wang X and Li Z 2024 Risk perception and resilience assessment of flood disasters based on social media big data International Journal of Disaster Risk Reduction 101 104249 [Google Scholar]
  39. Zhang X, Mao F, Gong Z, Hannah D M, Cai Y and Wu J 2023 A disaster-damage-based framework for assessing urban resilience to intense rainfall-induced flooding Urban Climate 48 101402 [Google Scholar]
  40. Zhang R, Jiang A and Jiang L 2025 Exposure-Sensitivity-Adaptability (ESA) framework based evaluation and characteristics analysis of urban disasters vulnerability in China Ecological Indicators 176 113662 [Google Scholar]
  41. Chen Z, Dong B, Pei Q and Zhang Z 2022 The impacts of urban vitality and urban density on innovation: Evidence from China’s Greater Bay Area Habitat International 119 102490 [Google Scholar]
  42. Ji J, Chen J F, Ding T H, and Li Y H 2024 Coupling coordination between urban flood resilience and ecosystem services in the Yangtze River Delta urban agglomerations Acta Ecologica Sinica 44 2772–85 [Google Scholar]
  43. Ji J, Chen J, Ding T and Gu Y 2025 How to achieve coordinated and sustainable development between urban flood resilience and ecosystem services at the urban agglomeration scale Journal of Environmental Management 388 126010 [Google Scholar]
  44. Li H, Han Y, Wang X and Li Z 2024 Risk perception and resilience assessment of flood disasters based on social media big data International Journal of Disaster Risk Reduction 101 104249 [Google Scholar]
  45. Bai Z, Huang S, Wang L and Qi J 2025 Refined understanding of street vitality: comparing the spatial effects of pedestrian vitality and cycling vitality and the spatial heterogeneity of factors International Journal of Digital Earth 18 2501769 [Google Scholar]
  46. LI Y, WANG M, and WANG Y 2025 The Concept, Quantitative Measurement, and Spatial Differentiation of Urban Spatial Vulnerability: A Case Study of Prefecture-level Cities in the ChengduChongqing Economic Circle Urban Planning Forum 43–50 [Google Scholar]
  47. Tang J, Yang S and Wang W 2021 Social media-based disaster research: Development, trends, and obstacles International Journal of Disaster Risk Reduction 55 102095 [Google Scholar]
  48. FAN Y and ZHANG M 2024 Research Prospects on Urban Water-sensitive Open Space and its Infrastructure for Dual-use of Disaster and Routine: Using Emerging Urban Ergonomics Data World Architecture Review 39 52–7 [Google Scholar]
  49. Lee H, Song K, Kim G and Chon J 2021 Flood-adaptive green infrastructure planning for urban resilience Landscape Ecol Eng 17 427–37 [Google Scholar]
  50. Chen W, Wang W, Huang G, Wang Z, Lai C and Yang Z 2021 The capacity of grey infrastructure in urban flood management: A comprehensive analysis of grey infrastructure and the green-grey approach International Journal of Disaster Risk Reduction 54 102045 [Google Scholar]
  51. Li L, Uyttenhove P and Van Eetvelde V 2020 Planning green infrastructure to mitigate urban surface water flooding risk – A methodology to identify priority areas applied in the city of Ghent Landscape and Urban Planning 194 103703 [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.