Urban change detection is an important part of monitoring operations and disaster relief efforts. However, often sufficient ground truth data is not available to use traditional supervised machine learning techniques. In this paper, a novel Deep Learning based weakly-supervised framework for urban change detection using multi-temporal polarimetric SAR data is proposed. A modified unsupervised stacked auto-encoder stage is used to learn an efficient representation of the multi-temporal polarimetric information. Then a label aggregation is performed in the feature space before classification by a multi-layer perceptron. The proposed methodology is validated on a L-band UAVSAR dataset acquired over Los Angeles, CA and performs accurately and effectively with a low false alarm rate
A novel change detection framework based on deep learning for the analysis of multi-temporal polarimetric SAR images / De, Shaunak; Pirrone, Davide; Bovolo, Francesca; Bruzzone, Lorenzo; Bhattacharya, Avik. - STAMPA. - (2017), pp. 5193-5196. (Intervento presentato al convegno IGARSS 2017 tenutosi a Fort Worth, Texas, USA nel 23-28 July 2017) [10.1109/IGARSS.2017.8128171].
A novel change detection framework based on deep learning for the analysis of multi-temporal polarimetric SAR images
Pirrone, Davide;Bovolo, Francesca;Bruzzone, Lorenzo;
2017-01-01
Abstract
Urban change detection is an important part of monitoring operations and disaster relief efforts. However, often sufficient ground truth data is not available to use traditional supervised machine learning techniques. In this paper, a novel Deep Learning based weakly-supervised framework for urban change detection using multi-temporal polarimetric SAR data is proposed. A modified unsupervised stacked auto-encoder stage is used to learn an efficient representation of the multi-temporal polarimetric information. Then a label aggregation is performed in the feature space before classification by a multi-layer perceptron. The proposed methodology is validated on a L-band UAVSAR dataset acquired over Los Angeles, CA and performs accurately and effectively with a low false alarm rateFile | Dimensione | Formato | |
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