Sudipan Saha scite author profile

Unsupervised transfer learning-based change detection methods exploit the feature extraction capability of pretrained networks to distinguish changed pixels from the unchanged ones. However, their performance may vary significantly depending on several geographical and model-related aspects. In many applications, it is of utmost importance to provide trustworthy or confident results, even if over a subset of pixels. The core challenge in this problem is to identify changed pixels and confident pixels in an unsupervised manner. To address this, we propose a two-network model -one tasked with mere change detection and the other with confidence estimation. While the change detection network can be used in conjunction with popular transfer learning-based change detection methods such as Deep Change Vector Analysis, the confidence estimation network operates similarly to a randomized smoothing model. By ingesting ensembles of inputs perturbed by noise, it creates a distribution over the output and assigns confidence to each pixel's outcome. We tested the proposed method on three different Earth observation sensors: optical, Synthetic Aperture Radar, and hyperspectral sensors.

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Building Change Detection in VHR SAR Images via Unsupervised Deep Transcoding

Saha

Bovolo

Bruzzone

2021

IEEE Trans. Geosci. Remote Sensing

140

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Unsupervised Deep Transfer Learning-Based Change Detection for HR Multispectral Images

Saha

Solano‐Correa

Bovolo

et al. 2021

IEEE Geosci. Remote Sensing Lett.

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Unsupervised Deep Joint Segmentation of Multitemporal High-Resolution Images

Saha

Mou

Qiu

et al. 2020

IEEE Trans. Geosci. Remote Sensing

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High/very-high-resolution (HR/VHR) multitemporal images are important in remote sensing to monitor the dynamics of the Earth's surface. Unsupervised object-based image analysis provides an effective solution to analyze such images. Image semantic segmentation assigns pixel labels from meaningful object groups and has been extensively studied in the context of single-image analysis, however not explored for multitemporal one. In this article, we propose to extend supervised semantic segmentation to the unsupervised joint semantic segmentation of multitemporal images. We propose a novel method that processes multitemporal images by separately feeding to a deep network comprising of trainable convolutional layers. The training process does not involve any external label, and segmentation labels are obtained from the argmax classification of the final layer. A novel loss function is used to detect object segments from individual images as well as establish a correspondence between distinct multitemporal segments. Multitemporal semantic labels and weights of the trainable layers are jointly optimized in iterations. We tested the method on three different HR/VHR data sets from Munich, Paris, and Trento, which shows the method to be effective. We further extended the proposed joint segmentation method for change detection (CD) and tested on a VHR multisensor data set from Trento.

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Sudipan Saha

Unsupervised Deep Change Vector Analysis for Multiple-Change Detection in VHR Images

Building Change Detection in VHR SAR Images via Unsupervised Deep Transcoding

Unsupervised Deep Transfer Learning-Based Change Detection for HR Multispectral Images

Unsupervised Deep Joint Segmentation of Multitemporal High-Resolution Images

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