CONICET | Buscador de Institutos y Recursos Humanos

Tidal ﬂats generally exhibit ponds of diverse size, shape, orientation and origin. Studying the genesis, evolution, stability and erosive mechanisms of these geographic features is critical to understand the dynamics of coastal wetlands. However, monitoring these locations through direct access is hard and expensive, not always feasible, and environmentally damaging. Processing remote sensing images is a natural alternative for the extraction of qualitative and quantitative data due to their non-invasive nature. In this work, a robust methodology for automatic classiﬁcation of ponds and tidal creeks in tidal ﬂats using Google Earth images is proposed. The applicability of our method is tested in nine zones with different morphological settings. Each zone is processed by a segmentation stage, where ponds and tidal creeks are identiﬁed. Next, each geographical feature is measured and a set of shape descriptors is calculated. This dataset, together with a-priori classiﬁcation of each geographical feature, is used to deﬁne a regression model, which allows an extensive automatic classiﬁcation of large volumes of data discriminating ponds and tidal creeks against other various geographical features. In all cases, we identiﬁedand automatically classiﬁed different geographic features with an average accuracy over 90% (89.7% in the worst case, and 99.4% in the best case). These results show the feasibility of using freely available Google Earth imagery for the automatic identiﬁcation and classiﬁcation of complex geographical features. Also, the presented methodology may be easily applied in other wetlands of the world and perhaps employing other remote sensingimagery.