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  • Land cover analysis based on descriptive statistics of Sentinel-2 time series data
    1-9
    Views:
    336

    In our paper we examined the opportunities of a classification based on descriptive statistics of NDVI
    throughout a year’s time series dataset. We used NDVI layers derived from cloud-free Sentinel-2 images
    in 2018. The NDVI layers were processed by object-based image analysis and classified into 5 classes, in
    accordance with Corine Land Cover (CLC) nomenclature. The result of classification had a 76.2% overall
    accuracy. We described the reasons for the disagreement in case of the most remarkable errors. 

  • Urban vegetation classification with high-resolution PlanetScope and SkySat multispectral imagery
    66-75
    Views:
    523

    In this study two high-resolution satellite imagery, the PlanetScope, and SkySat were compared based on their classification capabilities of urban vegetation. During the research, we applied Random Forest and Support Vector Machine classification methods at a study area, center of Rome, Italy. We performed the classifications based on the spectral bands, then we involved the NDVI index, too. We evaluated the classification performance of the classifiers using different sets of input data with ROC curves and AUC values. Additional statistical analyses were applied to reveal the correlation structure of the satellite bands and the NDVI and General Linear Modeling to evaluate the AUC of different models. Although different classification methods did not result in significantly differing outcomes (AUC values between 0.96 and 0.99), SVM’s performance was better. The contribution of NDVI resulted in significantly higher AUC values. SkySat’s bands provided slightly better input data related to PlanetScope but the difference was minimal (~3%); accordingly, both satellites ensured excellent classification results.

  • Spatial distribution of vegetation cover in Erbil city districts using high-resolution Pléiades satellite image
    10-22
    Views:
    186

    Green spaces are playing an essential role for ecological balance and for human health in the city as well.
    They play a fundamental role in providing opportunities for relaxation and enjoying the beauty of nature
    for the urban population. Therefore, it is important to produce detailed vegetation maps to assist planners
    in designing strategies for the optimisation of urban ecosystem services and to provide a suitable plan
    for climate change adaptation in one fast growing city. Hence, this research is an investigation using 0.5
    m high-resolution multispectral Pléiades data integrated with GIS data and techniques to detect and
    evaluate the spatial distribution of vegetation cover in Erbil City. A supervised classification was used
    to classify different land cover types, and a normalised difference vegetation index (NDVI) was used
    to retrieve it for the city districts. Moreover, to evaluate the accessibility of green space based on their
    distance and size, a buffer zone criterion was used. The results indicate that the built-up land coverage
    is 69% and vegetation land cover is 14%. Regarding NDVI results, the spatial distribution of vegetation
    cover was various and, in general, the lowest NDVI values were found in the districts located in the city
    centre. On the other hand, the spatial distribution of vegetation land cover regarding the city districts was
    non-equal and non-concentric. The newly built districts and the districts far from the Central Business
    District (CBD) recorded the lowest vegetation cover compared with the older constructed districts.
    Furthermore, most of the districts have a lack of access to green spaces based on their distance and size.
    Distance and accessibility of green areas throughout the city are not equally distributed. The majority of
    the city districts have access to green areas within radius buffer of two kilometres, whereas the lowest
    accessibility observed for those districts located in the northeast of the city in particular (Xanzad,
    Brayate, Setaqan and Raperin). Our study is one of the first investigations of decision-making support
    of the spatial planning in a fast-growing city in Iraq and will have a utilitarian impact on development
    processes and local and regional planning for Erbil City in the future.

  • Specific features of NDVI, NDWI and MNDWI as reflected in land cover categories
    194-202
    Views:
    941

    The remote sensing techniques provide a great possibility to analyze the environmental processes in
    local or global scale. Landsat images with their 30 m resolution are suitable among others for land
    cover mapping and change monitoring. In this study three spectral indices (NDVI, NDWI, MNDWI) were
    investigated from the aspect of land cover types: water body (W); plough land (PL); forest (F); vineyard
    (V); grassland (GL) and built-up areas (BU) using Landsat-7 ETM+ data. The range, the dissimilarities
    and the correlation of spectral indices were examined. In BU – GL – F categories similar NDVI values
    were calculated, but the other land cover types differed significantly. The water related indices (NDWI,
    MNDWI) were more effective (especially the MNDWI) to enhance water features, but the values of other
    categories ranged from narrower interval. Weak correlation were found among the indices due to the
    differences caused by the water land cover class. Statistically, most land cover types differed from each
    other, but in several cases similarities can be found when delineating vegetation with various water
    content. MNDWI was found as the most effective in highlighting water bodies.

  • Sentinel-2 satellite-based analysis of bark beetle damage in Sopron Mountains, Hungary
    33-40
    Views:
    18

    Sopron mountains were affected by bark beetle (Ips typographus) damage between 2017 and 2020, which was surveyed on high-resolution ESA Sentinel-2 satellite images for the period 2017 and 2020 using Mosaic Hub, Anaconda, and Jupyter Notebook web-based computing environments. Biotic forest damage was detected based on vegetation (NDVI) and moisture (MSI, NDWI) indices derived from satellite images. The spatial and temporal change of damage was observed in the image series, resulting in information about the level of degradation and regeneration. In pursuance of GIS processing, 84 forest compartments were compared, which showed in most of the cases (97%) negative interannual change in the index mean values (MSI = - 0.14, NDWI = - 0.2, NDVI= - 0.19) when years compared to each other. The remote sensing-based survey was marked out and validated based on the forest database of the Hungarian Division of Forest of National Land Centre and forest protection damage reports of the Hungarian National Forest Damage Registration System.

  • Studying floodplain roughness in an Upper Tisza study area
    85-90
    Views:
    179

    Floods slowing down due to the significant decrease of the gradient have considerable sediment accumulation capacity in the floodplain. The grade of accumulation is further increased if the width of the floodplain is not uniform as water flowing out of the narrow sections diverge and its speed is decreased. Surface roughness in a study area of 492 hectares in the Upper Tisza region was analysed based on CIR (color-infrared) orthophotos from 2007. An NDVI index layer was created first on which object-based image segmentation and threshold-based image classification were performed. The study area is dominated by land cover / land use types (grassland-shrubs, forest) with high roughness values. It was concluded that vegetation activity based analyses on their own are not enough for determining floodplain roughness.