Abstract
Urban vegetation mapping is critical in many applications, i.e., preserving biodiversity, maintaining ecological balance, and minimizing the urban heat island effect. It is still challenging to extract accurate vegetation covers from aerial imagery using traditional classification approaches, because urban vegetation categories have complex spatial structures and similar spectral properties. Deep neural networks (DNNs) have shown a significant improvement in remote sensing image classification outcomes during the last few years. These methods are promising in this domain, yet unreliable for various reasons, such as the use of irrelevant descriptor features in the building of the models and lack of quality in the labeled image. Explainable AI (XAI) can help us gain insight into these limits and, as a result, adjust the training dataset and model as needed. Thus, in this work, we explain how an explanation model called Shapley additive explanations (SHAP) can be utilized for interpreting the output of the DNN model that is designed for classifying vegetation covers. We want to not only produce high-quality vegetation maps, but also rank the input parameters and select appropriate features for classification. Therefore, we test our method on vegetation mapping from aerial imagery based on spectral and textural features. Texture features can help overcome the limitations of poor spectral resolution in aerial imagery for vegetation mapping. The model was capable of obtaining an overall accuracy (OA) of 94.44% for vegetation cover mapping. The conclusions derived from SHAP plots demonstrate the high contribution of features, such as Hue, Brightness, GLCM_Dissimilarity, GLCM_Homogeneity, and GLCM_Mean to the output of the proposed model for vegetation mapping. Therefore, the study indicates that existing vegetation mapping strategies based only on spectral characteristics are insufficient to appropriately classify vegetation covers.
Highlights
In urban areas, vegetation plays a significant role for various purposes, including conserving biodiversity, preserving ecological balance, and reducing the urban heat island effect [1]
The technique for mapping vegetation covers using Deep neural networks (DNNs) and Shapley additive explanations (SHAP) is described in depth
We used an explanation model called SHAP to interpret the outputs of a DNN model designed for classification and analyze the feature importance
Summary
Vegetation plays a significant role for various purposes, including conserving biodiversity, preserving ecological balance, and reducing the urban heat island effect [1]. Producing these vegetation maps is critical to assist planners in optimizing climate change adaptation and urban ecosystem services [2]. Remote sensing data have been extensively employed for vegetation mapping in various environments due to its ability to discriminate broad scales of land cover types. It has been a hot topic in the remote sensing field to effectively extract and map land use types over urban vegetation cover [7].
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
