Smart City Gnosys

Smart city article details

Title Exploring Sustainable Design Of Smart Campus Restorative Landscapes - - Based On Gis Two-Step Floating Catchment Area Method
ID_Doc 25638
Authors Yin M.; Li K.; Huang Z.
Year 2024
Published ACM International Conference Proceeding Series
DOI http://dx.doi.org/10.1145/3685088.3685101
Abstract Background: With the continuous advancement of urbanization, the construction of smart cities has become a crucial global trend in urban development. In the process of building smart cities, utilizing advanced information system technology to plan and design urban landscapes can not only enhance the quality of life for urban residents but also promote sustainable urban development.Objective: This study aims to evaluate the sustainable design of restorative landscapes within smart campuses using GIS technology, particularly based on the Two-Step Floating Catchment Area method.Method: Through GIS spatial analysis and route planning, we investigated the distribution of restorative landscapes within smart campuses and analyzed their correlation with the travel paths and modes of students and faculty.Results: Different modes of transportation have an impact on the accessibility of restorative landscapes within smart campuses. Additionally, landscape design is closely related to the lifestyles and preferences of urban residents.Recommendations: To further promote the development of smart cities, it is recommended to prioritize the application of information system technology in the design of smart campuses to enhance the quality and sustainability of landscape design. This study emphasizes the importance of information system technology in smart city construction and provides valuable reference for the planning and design of future smart campuses. © 2024 ACM.
Author Keywords


Similar Articles

Id Similarity Authors Title Published
24954 View0.885Yuan J.; Wang Z.; Xing S.; Kim C.Evaluation Study On The Smart And Interactive Landscape Design Of Haiyuntai Waterfront Park From The Perspective Of A Sustainable CityLand, 14, 2 (2025)
1786 View0.882Zhang Y.; Hamzah H.; Adam M.A Framework For Smart City Streetscape (Scs) Design Guidelines For Urban Sustainability: Results From A Systematic Literature Review And A Delphi ProcessEnvironment, Development and Sustainability, 26, 11 (2024)
19964 View0.872Deng Y.; Xie L.; Xing C.; Cai L.Digital City Landscape Planning And Design Based On Spatial Information TechnologyNeural Computing and Applications, 34, 12 (2022)
874 View0.863Dissanayake D.M.S.L.B.; Ranagalage M.; Jayasundara J.M.S.B.; Rajapakshe P.S.K.; Herath N.S.K.; Marasinghe S.A.; Wanninayake W.M.S.B.; Dilanjani H.U.K.; Perera A.L.W.M.; Herath Y.A Comprehensive Bibliometric Analysis Of Spatial Data Infrastructure In A Smart City ContextLand, 14, 3 (2025)
49213 View0.858Mohan S.; Munoth N.; Sharma N.Smart Buildings And Cities With Remote Sensing And GisSmart Buildings and Cities with Remote Sensing and GIS (2025)
41684 View0.857Kang C.; He Y.; Xu J.Performance Analysis Of Smart City Landscape Design And Planning Based On The Internet Of ThingsScalable Computing, 25, 5 (2024)
12 View0.856Wang J.; Tamprasirt A."Smart City" And Its Implementation In Concepts Of Cities Of Future (Floating Cities)Architecture Image Studies, 5, 2 (2024)
10280 View0.854Pratibha; Dhiman P.; Kaur G.Architectural Design Principles For Smart And Sustainable Cities5G-Enabled Technology for Smart City and Urbanization System (2024)
50012 View0.853Safizadeh, M; Tilaki, MJM; Marzbali, MH; Abdullah, ASmart City And Spatial Configuration: Assessing Accessibility And Intelligibility To Increase Mobility In The George Town Heritage Site, MalaysiaOPEN HOUSE INTERNATIONAL-SUSTAINABLE & SMART ARCHITECTURE AND URBAN STUDIES, 48, 3 (2023)
4936 View0.852Ioanna F.; Dimitra T.A Strategic Approach To Smart Cities Through Ca And Shape GrammarsSMARTGREENS 2019 - Proceedings of the 8th International Conference on Smart Cities and Green ICT Systems (2019)