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Wang, X. (2021). The practice teaching of regional cultural expression in rural landscape planning and design under the background of urban-rural integration. International Journal of Electrical Engineering Education, 002072092098430.Search in Google Scholar
Liu, T., & Li, Q. (2022). Multidimensional nonlinear landscape planning based on parameter feature extraction and multimedia technology. Advances in multimedia(Pt.2), 2022.Search in Google Scholar
Li, J., & Hou, T. (2021). Application of virtual reality technology in analysis of the three-dimensional evaluation system of rural landscape planning. Mathematical Problems in Engineering, 2021(5), 1–16.Search in Google Scholar
Khosravi, R., & Hemami, M. R. (2019). Identifying landscape species for ecological planning. Ecological Indicators, 99(APR.), 14–148.Search in Google Scholar
Liu, X. (2020). Three-dimensional visualized urban landscape planning and design based on virtual reality technology. IEEE Access, PP(99), 1–1.Search in Google Scholar
Antonio Miguel Martínez-Graa, Silva, P. G., José Luis Goy, Elez, J., V. Valdés, & Zazo, C. (2017). Geomorphology applied to landscape analysis for planning and management of natural spaces. case study: las batuecas-s. de francia and quilamas natural parks, (salamanca, spain). The Science of the Total Environment.Search in Google Scholar
Marull, J., Torabi, P., Padró, Roc, Alabert, A., La Rota, Maria José, & Serrano, T. (2020). Energy-landscape optimization for land use planning. application in the barcelona metropolitan area. Ecological Modelling, 431.Search in Google Scholar
Inkoom, J. N., Frank, S., Greve, K., Walz, U., & Christine Fürst. (2018). Suitability of different landscape metrics for the assessments of patchy landscapes in west africa. Ecological Indicators, 85(FEB.), 117–127.Search in Google Scholar
Heinonen, T. (2019). Developing landscape connectivity in commercial boreal forests using minimum spanning tree and spatial optimization. Canadian Journal of Forest Research, 49(10).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 EngineeringSearch in Google Scholar
Song, Y., & Jing, Y. (2020). Application prospect of cad-sketchup-ps integrated software technology in landscape planning and design. Computer-Aided Design and Applications, 18(S3), 153–163.Search in Google Scholar
Michanek, G., Bostedt, Göran, Ekvall, H., Forsberg, M., Hof, A., & De Jong, J., et al. (2018). Landscape planning-paving the way for effective conservation of forest biodiversity and a diverse forestry?. Forests, 9(9).Search in Google Scholar
De Meo, I., Cantiani, M., Ferretti, F., & Paletto, A. (2018). Qualitative assessment of forest ecosystem services: the stakeholders’ point of view in support of landscape planning. Forests, 9(8).Search in Google Scholar
Wang, R. (2018). Plant landscape planning and design of nanshan botanical garden (china) based on forest ecological garden. Forestry Studies / Metsanduslikud Uurimused, 68(1), 25–32.Search in Google Scholar
Zhao, H., Liu, J., & Luo, C. (2017). An extension analysis of garden landscape planning and art design based on gis system technology. Revista de la Facultad de Ingenieria, 32(12), 1051–1058.Search in Google Scholar
Liu, M. (2017). Research on the application of 3d visualization gis in landscape planning. Revista de la Facultad de Ingenieria, 32(3), 156–165.Search in Google Scholar
Wang, Y. (2017). Application of 3d modeling software in landscape planning and design. Revista de la Facultad de Ingenieria, 32(11), 659–664.Search in Google Scholar
Dong, L. (2017). An improved method for landscape architecture design and environmental planning based on 3d image simulation. Boletin Tecnico/Technical Bulletin, 55(14), 274–280.Search in Google Scholar
Juan, D. (2017). Study on the landscape ecological planning of mountain cities based on green infrastructure. Boletin Tecnico/Technical Bulletin, 55(19), 27–33.Search in Google Scholar
Hu, X. (2017). Geographic landscape space and tourism planning of longtan ancient village. Boletin Tecnico/Technical Bulletin, 55(15), 627–632.Search in Google Scholar
Thellbro, C., Olof Stjernström, Per Sandström, & Lidestav, G. (2017). Visualizing the forest in a boreal forest landscape-the perspective of swedish municipal comprehensive planning. Forests, 8(6), 189.Search in Google Scholar
Filesi, L., Fiduccia, A., Cattozzo, L., & Gugliermetti, L. (2020). Ecosystem indicators and landscape ecology metrics as a tool to evaluate sustainable land planning in iczm. Lecture Notes in Computer Science.Search in Google Scholar
Ling, T., Ma, Y., & Zhou, T. (2022). Computer 3d scene simulation of ecological landscape layout planning. Advances in multimedia(Pt.5), 2022.Search in Google Scholar
Pirnat, J., & Hladnik, D. (2018). The concept of landscape structure, forest continuum and connectivity as a support in urban forest management and landscape planning. Forests, 9(10), 584.Search in Google Scholar
Guo, S., Su, C., Saito, K., Cheng, J., & Terada, T. (2019). Bird communities in urban riparian areas: response to the local- and landscape-scale environmental variables. Forests, 10(8), 683.Search in Google Scholar
Min, J. (2017). Application of computer simulation in urban garden landscape design and value analysis based multimedia. Revista de la Facultad de Ingenieria, 32(1), 574–581.Search in Google Scholar
Li, R., & Xu, D. (2020). Distribution of landscape architecture based on 3d images and virtual reality rationality study. IEEE Access, PP(99), 1–1.Search in Google Scholar