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The present study proposes a workflow to extract vegetation height for urban areas from Pléiades stereo and tri-stereo satellite imagery. The workflow was applied on a stereo image pair for Szeged, Hungary and on tri-stereo imagery for Salzburg, Austria. Digital surface models (DSMs) of the study areas were computed using the semi-global matching algorithm. Normalised digital surface models (nDSMs) were then generated. Objects of vegetation and non-vegetation were delineated based on the spectral information of the multispectral images by applying multi-resolution segmentation and support vector machine classifier. Mean object height values were then computed from the overlaid pixels of the nDSMs and assigned to the objects. Finally, the delineated vegetation was classified into six vegetation height classes based on their assigned height values by using hierarchical classification. The vegetation discrimination resulted in very high accuracy, while the vegetation height extraction was moderately accurate. The results of the vegetation height extraction provided a vertical stratification of the vegetation in the two study areas which is readily applicable for decision support purposes. The elaborated workflow will contribute to a green monitoring and valuation strategy and provide input data for an urban green accessibility study.
Gyula Kothencz; Kerstin Kulessa; Aynabat Anyyeva; Stefan Lang. Urban vegetation extraction from VHR (tri-)stereo imagery – a comparative study in two central European cities. European Journal of Remote Sensing 2018, 51, 285 -300.
AMA StyleGyula Kothencz, Kerstin Kulessa, Aynabat Anyyeva, Stefan Lang. Urban vegetation extraction from VHR (tri-)stereo imagery – a comparative study in two central European cities. European Journal of Remote Sensing. 2018; 51 (1):285-300.
Chicago/Turabian StyleGyula Kothencz; Kerstin Kulessa; Aynabat Anyyeva; Stefan Lang. 2018. "Urban vegetation extraction from VHR (tri-)stereo imagery – a comparative study in two central European cities." European Journal of Remote Sensing 51, no. 1: 285-300.
Individual perceptions are essential when evaluating the well-being benefits from urban green spaces. This study predicted the influence of perceived green space characteristics in the city of Szeged, Hungary, on two well-being variables: the green space visitors’ level of satisfaction and the self-reported quality of life. The applied logistic regression analysis used nine predictors: seven perceived green space characteristics from a questionnaire survey among visitors of five urban green spaces of Szeged; and the frequency of green space visitors’ crowd-sourced recreational running paths and photographs picturing green space aesthetics. Results revealed that perceived green space characteristics with direct well-being benefits were strong predictors of both dependent variables. Perceived green space characteristics with indirect, yet fundamental, well-being benefits, namely, regulating ecosystem services had minor influence on the dependent variables. The crowd-sourced geo-tagged data predicted only the perceived quality of life contributions; but revealed spatial patterns of recreational green space use and aesthetics. This study recommends that regulating ecosystem services should be planned with a focus on residents’ aesthetic and recreational needs. Further research on the combination of green space visitors´ perceptions and crowd-sourced geo-tagged data is suggested to promote planning for well-being and health benefits of urban green spaces.
Gyula Kothencz; Ronald Kolcsár; Pablo Cabrera-Barona; Péter Szilassi. Urban Green Space Perception and Its Contribution to Well-Being. International Journal of Environmental Research and Public Health 2017, 14, 766 .
AMA StyleGyula Kothencz, Ronald Kolcsár, Pablo Cabrera-Barona, Péter Szilassi. Urban Green Space Perception and Its Contribution to Well-Being. International Journal of Environmental Research and Public Health. 2017; 14 (7):766.
Chicago/Turabian StyleGyula Kothencz; Ronald Kolcsár; Pablo Cabrera-Barona; Péter Szilassi. 2017. "Urban Green Space Perception and Its Contribution to Well-Being." International Journal of Environmental Research and Public Health 14, no. 7: 766.