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Spatial–Spectral–Temporal Deep Regression Model With Convolutional Long Short-Term Memory and Transformer for the Large-Area Mapping of Mangrove Canopy Height by Using Sentinel-1 and Sentinel-2 Data

Ilham Jamaluddin, Ying-Nong Chen, Kuo‐Chin Fan

2024IEEE Transactions on Geoscience and Remote Sensing15 citationsDOI

Abstract

Mangrove canopy height information is crucial to carbon stock and biomass analyses. However, estimation of this height is challenging because of large areas involved, and field conditions of mangrove forests. Remote sensing satellite imagery has been used for canopy height mapping because it offers several advantages. This study developed a spatial–spectral–temporal deep learning regression model with convolutional long short-term memory (ConvLSTM) and transformer (hereafter referred to as the SST-CLT model) to map mangrove canopy height over large area. The SST-CLT model consists of two sub-models trained simultaneously. The first sub-model is fusion extractor to extracts spatial–spectral–temporal information from Sentinel-1 time-series data by using a ConvLSTM. It also extracts spatial–spectral information from Sentinel-2 data using a two-dimensional convolutional block. The second sub-model is a regressor contains Swin transformer and final convolutional regression layer. Data from light detection and ranging canopy height model were employed as the target data to train the proposed model. The SST-CLT model was tested on two datasets collected from Florida: large dataset for the Everglades National Park (ENP) and small dataset for the Charlotte Harbor Preserve State Park (CHPSP). The SST-CLT model achieved a mean absolute error (MAE) of 1.924 and 1.913 m for the ENP and CHPSP datasets, respectively. Moreover, it achieved root mean square error (RMSE) values of 2.471 and 2.440 m for these datasets, respectively. The SST-CLT model was compared with that of other regression models. The results indicated that the MAE and RMSE of the proposed SST-CLT were lower than those of the other models. https://github.com/ilhamjamal/SST-CLT.

Topics & Concepts

Remote sensingCanopyHyperspectral imagingMean squared errorEnvironmental scienceMathematicsStatisticsGeographyArchaeologyRemote Sensing and LiDAR ApplicationsLand Use and Ecosystem ServicesCoastal wetland ecosystem dynamics
Spatial–Spectral–Temporal Deep Regression Model With Convolutional Long Short-Term Memory and Transformer for the Large-Area Mapping of Mangrove Canopy Height by Using Sentinel-1 and Sentinel-2 Data | Litcius