A fully learnable context-driven object-based model for mapping land cover using multi-view data from unmanned aircraft systems

Abstract:

Context information is rarely used in the object-based landcover classification. Previous models that attempted to utilize this information usually required the user to input empirical values for critical model parameters, leading to less optimal performance. Multi-view image information is useful for improving classification accuracy, but the methods to assimilate multi-view information to make it usable for context driven models have not been explored in the literature. Here we propose a novel method to exploit the multi-view information for generating class membership probability. Moreover, we develop a new conditional random field model to integrate multi-view information and context information to further improve landcover classification accuracy. This model does not require the user to manually input parameters because all parameters in the Conditional Random Field (CRF) model are fully learned from the training dataset using the gradient descent approach. Using multi-view data extracted from small Unmanned Aerial Systems (UASs), we experimented with Gaussian Mixed Model (GMM), Random Forest (RF), Support Vector Machine (SVM) and Deep Convolutional Neural Networks (DCNN) classifiers to test model performance. The results showed that our model improved average overall accuracies from 58.3% to 74.7% for the GMM classifier, 75.8% to 87.3% for the RF classifier, 75.0% to 84.4% for the SVM classifier and 80.3% to 86.3% for the DCNN classifier. Although the degree of improvement may depend on the specific classifier respectively, the proposed model can significantly improve classification accuracy irrespective of classifier type.

Links:

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Citation:

T. Liu, A. Abd-Elrahman, A. Zare, B. Dewitt, L. Flory, and S. Smith, “A fully learnable context-driven object-based model for mapping land cover using multi-view data from unmanned aircraft systems,” Remote Sensing of Environment.vol. 216, pp. 328-344, Oct. 2018.
@Article{Liu2018Fully
Title = {A fully learnable context-driven object-based model for mapping land cover using multi-view data from unmanned aircraft systems},
Author = {Liu, T. and Abd-Elrahman, A. and Zare, A. and Dewitt, B. and Flory, L. and Smith, S.},
Journal = {Remote Sensing of Environment},
Year = {2018},
Month = {Oct.},
Volume = {216},
Pages = {328-344},
Doi = {10.1016/j.rse.2018.06.031}
}