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Zhang, J. (2021). Application of computer simulation analysis in green city garden plant landscape design. Scientific programming(Pt.8), 2021.Search in Google Scholar
Haron, S. H. (2023). The influence of multistakeholder value cognition and risk attitudes on sustainable interior landscape design decisions. Sustainability, 15.Search in Google Scholar
Nordh, H., & Evensen, K. H. (2022). Landscape architecture design and well-being—research challenges and opportunities. Sustainability, 14.Search in Google Scholar
Peng, L. (2021). Intelligent landscape design and land planning based on neural network and wireless sensor network. Journal of Intelligent and Fuzzy Systems, 40(2), 2055-2067.Search in Google Scholar
Zhang, X., Yan, S., & QuanQi. (2021). Virtual reality design and realization of interactive garden landscape. Complexity, 2021.Search in Google Scholar
Yang, W., Xi, X., Guo, L., Chen, Z., & Ma, Y. (2021). Guangzhou digital city landscape planning based on spatial information from the perspective of smart city. Mathematical Problems in Engineering.Search in Google Scholar
Segre, H., Carmel, Y., & Shwartz, A. (2021). Economic and not ecological variables shape the sparing-sharing trade-off in a mixed cropping landscape. Journal of Applied Ecology.Search in Google Scholar
Zhang, S. (2022). Knowledge mapping analysis of the study of ecosystem services and landscape architecture. Journal of urban planning and development.Search in Google Scholar
Guo, S., Tang, J., Liu, H., & Gu, X. (2021). Study on landscape architecture model design based on big data intelligence. Big Data Research, 100219.Search in Google Scholar
Nickayin, S. S. (2022). Paradigm shift of scale in landscape architecture—towards a planetary observation. Sustainability, 14.Search in Google Scholar
Phetkongtong, N. (2022). The priorities of landscape architectural elements and the decision to use city park spaces (case study: somdej phra sri nagarindra 84 parks, thailand). International journal of sustainable development and planning: Encouraging the unified approach to achieve sustainability.Search in Google Scholar
Xianxian, Y., Changhuizi, N., Yifei, B., & Shengyuan, Y. (2021). Application of ecological and environmental protection concept in urban landscape planning and design. Journal of environmental protection and ecology(6), 22.Search in Google Scholar
Shan, J., Huang, Z., Chen, S., Li, Y., & Ji, W. (2021). Green space planning and landscape sustainable design in smart cities considering public green space demands of different formats. Complexity, 2021(1), 1-10.Search in Google Scholar
Zhou, Z., Qingshan, Z., Dongyi, L., & Weihong, T. (2021). Three-dimensional reconstruction of huizhou landscape combined with multimedia technology and geographic information system. Mobile information systems.Search in Google Scholar
Shi, C. (2019). Creative design of visual art in the context of digital media. International Journal of Recent Trends in Engineering and Research(07).Search in Google Scholar
Liu, Y., Wu, S., Xu, Q., & Liu, H. (2021). Holographic projection technology in the field of digital media art. Wireless Communications and Mobile Computing.Search in Google Scholar
Zhang, Q., Guo, X., Sun, M., Samuel, R. D. J., & Kumar, P. M. (2022). Visually improved digital media communication using virtual reality technology and digital twin. J. Interconnect. Networks, 22, 2146005:1-2146005:19.Search in Google Scholar
Liu, D. (2022). Research on the analysis method of digital media art communication based on 3d image recognition. Displays, 72, 102149-.Search in Google Scholar
Li, X. Y., & Cao, X. (2021). Discussion on ecological design and construction of river landscape based on fine-grained image classification (retraction of vol 14, art no 1523, 2021). Arabian journal of geosciences(24), 14.Search in Google Scholar
Lagacherie, P., Dages, C., Zadonina, E., Fabre, J. C., Molenat, J., & Squividant, H., et al. (2022). A fully automated and generic spatial discretization procedure for cultivated landscapeswith human-made landscape elements. Journal of hydroinformatics.Search in Google Scholar
Zhang, J. (2021). Highly resolved runoff path simulation based on urban surface landscape layout for subcatchment scale. Water, 13.Search in Google Scholar
Marques, M., Reynolds, K. M., Marto, M., Lakicevic, M., Caldas, C., & Murphy, P. J., et al. (2021). Multicriteria decision analysis and group decision-making to select stand-level forest management models and support landscape-level collaborative planning. Forests(399).Search in Google Scholar
Nieuwenhuizen, N. V., Lindsay, J. B., & Devries, B. (2021). Smoothing of digital elevation models and the alteration of overland flow path length distributions. Hydrological Processes, 35.Search in Google Scholar
Li, H., Zhao, T., & Ge, N. (2021). Analysis of the spatial distribution pattern of the urban landscape in the central plains under the influence of multiscale and multilevel morphological geomorphology. Complexity, 2021.Search in Google Scholar
Liu, M., & Nijhuis, S. (2021). The application of advanced mapping methods and tools for spatial-visual analysis in landscape design practice. Sustainability, 2021(13).Search in Google Scholar
Yin, N., & Cai, M. (2022). Urban road landscape design and digital twin simulation modeling analysis. Discrete Dynamics in Nature and Society, 2022.Search in Google Scholar
Yao, & Li, C. (2014). Research on the application of digital technology in the landscape design. Applied Mechanics & Materials, 716-717, 525-528.Search in Google Scholar
Zhang, Y. (2019). A landscape design method based on digital virtual technology. Basic & clinical pharmacology & toxicology.(S2), 125.Search in Google Scholar
The Viet TranAlvioli, MassimilianoLee, GihaAn, Hyun Uk. (2018). Three-dimensional, time-dependent modeling of rainfall-induced landslides over a digital landscape: a case study. Landslides, 15(6).Search in Google Scholar
Van Velthoven, M. H., Cordon, C., & Challagalla, G. (2019). Digitization of healthcare organizations: the digital health landscape and information theory. International Journal of Medical Informatics, 124(APR.), 49-57.Search in Google Scholar
Barreiro-Fernandez, Bujan, Miranda, Dieguez-Aranda, & Gonzalez-Ferreiro. (2016). Accuracy assessment of lidar-derived digital elevation models in a rural landscape with complex terrain. J APPL REMOTE SENS.Search in Google Scholar
Moussa, R. R., Mahmoud, A. H., & Hatem, T. M. (2020). A digital tool for integrating renewable energy devices within landscape elements: energy-scape online application. Journal of Cleaner Production, 254, 119932.Search in Google Scholar