4.5 Article

The Effects of Spatial Resolution and Resampling on the Classification Accuracy of Wetland Vegetation Species and Ground Objects: A Study Based on High Spatial Resolution UAV Images

Journal

DRONES
Volume 7, Issue 1, Pages -

Publisher

MDPI
DOI: 10.3390/drones7010061

Keywords

GEOBIA; UAV; spatial scale; aerial images; resampled images; machine learning classifier

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This study investigated the effects of spatial resolution and resampling on the classification results of vegetation species and ground objects, and utilized GEOBIA and various machine learning classifiers to classify remote sensing images in Chewan Town, Lixian County, Hubei Province. The results showed that the optimal scale parameter and processing time decreased as spatial resolution decreased in multi-scale images; the optimal scale parameter of resampled images was higher than that of original images at the same resolution; spectral and texture features in resampled images were more significant than those in original images; different classifiers exhibited similar trends in classification accuracy with spatial resolutions ranging from 1.2 to 5.9 cm, where the overall accuracy increased and then decreased with decreasing spatial resolution, with higher accuracy in original images compared to resampled images.
When employing remote sensing images, it is challenging to classify vegetation species and ground objects due to the abundance of wetland vegetation species and the high fragmentation of ground objects. Remote sensing images are classified primarily according to their spatial resolution, which significantly impacts the classification accuracy of vegetation species and ground objects. However, there are still some areas for improvement in the study of the effects of spatial resolution and resampling on the classification results. The study area in this paper was the core zone of the Huixian Karst National Wetland Park in Guilin, Guangxi, China. The aerial images (Am) with different spatial resolutions were obtained by utilizing the UAV platform, and resampled images (An) with different spatial resolutions were obtained by utilizing the pixel aggregation method. In order to evaluate the impact of spatial resolutions and resampling on the classification accuracy, the Am and the An were utilized for the classification of vegetation species and ground objects based on the geographic object-based image analysis (GEOBIA) method in addition to various machine learning classifiers. The results showed that: (1) In multi-scale images, both the optimal scale parameter (SP) and the processing time decreased as the spatial resolution diminished in the multi-resolution segmentation process. At the same spatial resolution, the SP of the An was greater than that of the Am. (2) In the case of the Am and the An, the appropriate feature variables were different, and the spectral and texture features in the An were more significant than those in the Am. (3) The classification results of various classifiers in the case of the Am and the An exhibited similar trends for spatial resolutions ranging from 1.2 to 5.9 cm, where the overall classification accuracy increased and then decreased in accordance with the decrease in spatial resolution. Moreover, the classification accuracy of the Am was higher than that of the An. (4) When vegetation species and ground objects were classified at different spatial scales, the classification accuracy differed between the Am and the An.

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