International Journal of Digital Earth (Dec 2023)

Vegetation ecological benefits index (VEBI): a 3D spatial model for evaluating the ecological benefits of vegetation

  • Zhimei Zhang,
  • Yanguo Fan,
  • Zhijun Jiao,
  • Bowen Fan,
  • Junwei Zhou,
  • Zhanhao Li

DOI
https://doi.org/10.1080/17538947.2023.2192527
Journal volume & issue
Vol. 16, no. 1
pp. 1108 – 1123

Abstract

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Urban population explosion may increase ecological environment discomfort, thereby affecting negatively humans’ mental and physical performance. Therefore, it is important to detect and monitor vegetation and predict its ecological benefits. The complex composition of urban environment ground objects, such as steel roofs, plastic courts, and building shadows, significantly interferes with vegetation detection and monitoring. The optimized hyperspectral image-based vegetation index (OHSVI) constructed in this study effectively solves this problem. However, it is difficult to accurately predict the ecological benefits of vegetation based on the two-dimensional vegetation information extracted based on remote sensing images; this is related to the three-dimensional (3D) structure of vegetation and the 3D pattern of buildings. Therefore, we first proposed the vegetation ecological benefits index (VEBI) based on the 3D structure of vegetation to reveal how vegetation acts on its 3D surroundings. The method was tested in a playground, an academic building, and a parking space. The results showed that the vegetation extraction accuracy of the OHSVI exceeded 93%, which is better than that of the existing indices. Our findings suggest that VEBI may be efficient in predicting 3D vegetation ecological benefits combined with remote sensing and lidar datasets.

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