This work is licensed under the Creative Commons Attribution 4.0 International License.
Morita, M. K. H. (2019). Topological computation analysis of meteorological time-series data. SIAM journal on applied dynamical systems, 18(2).Search in Google Scholar
Dagliati, A., Geifman, N., Peek, N., Holmes, J. H., & Tucker, A. (2020). Using topological data analysis and pseudo time series to infer temporal phenotypes from electronic health records. Artificial Intelligence in Medicine, 108, 101930.Search in Google Scholar
Goel, A., Pasricha, P., & Mehra, A. (2020). Topological data analysis in investment decisions. Expert Systems with Applications.Search in Google Scholar
Yuhei, U. (2017). Time series classification via topological data analysis. Transactions of the Japanese Society for Artificial Intelligence, 32(3), D-G72_1-12.Search in Google Scholar
Yao, W., & Sohail, M. (2022). Design of artistic creation style extraction model based on color feature data. Mathematical Problems in Engineering, 2022.Search in Google Scholar
Wang, R., Zhao, J., Meitner, M. J., Hu, Y., & Xu, X. (2019). Characteristics of urban green spaces in relation to aesthetic preference and stress recovery. Urban Forestry & Urban Greening.Search in Google Scholar
Carrillo-Angeles, I. G., Queijeiro-Bolaos, M. E., Malda-Barrera, G. X., & Suzán-Azpiri, Humberto. (2018). Aesthetic growth of a native tree species with desirable characteristics for urban green areas in arid and semiarid environments. Urban Forestry & Urban Greening, 33, 12-15.Search in Google Scholar
Lee, K. Y., Seo, J. I., Kim, K. N., Lee, Y., & Kim, J. (2019). Application of viewshed and spatial aesthetic analyses to forest practices for mountain scenery improvement in the republic of korea. Sustainability, 11(9), 2687.Search in Google Scholar
Schirpke, U., Tappeiner, G., Tasser, E., & Tappeiner, U. (2019). Using conjoint analysis to gain deeper insights into aesthetic landscape preferences. Ecological Indicators, 96(JAN.), 202-212.Search in Google Scholar
Lee, Y. Y. (2019). Aesthetic value of franco moschino's fashion design. Asia Life Sciences(3), 1133-1139.Search in Google Scholar
Guo, W., & Banerjee, A. G. (2017). Identification of key features using topological data analysis for accurate prediction of manufacturing system outputs. Journal of Manufacturing Systems, 225-234.Search in Google Scholar
Zulkepli, N. F. S., Noorani, M. S. M., Razak, F. A., Ismail, M., & Alias, M. A. (2020). Cluster analysis of haze episodes based on topological features. Sustainability, 12.Search in Google Scholar
Mercuri, F., Paoloni, S., Cicero, C., Zammit, U., & Orazi, N. (2018). Infrared emission contrast for the visualization of subsurface graphical features in artworks. Infrared Physics & Technology, S135044951730806X.Search in Google Scholar
Gdawiec, W. L. A. (2021). Newton's method with fractional derivatives and various iteration processes via visual analysis. Numerical algorithms, 86(3).Search in Google Scholar
Ri, M. G., Yun, C. H., & Kim, M. H. (2021). Construction of cubic spline hidden variable recurrent fractal interpolation function and its fractional calculus. Chaos Solitons & Fractals, 150(5), 111177.Search in Google Scholar
