Wavelet enabled convolutional autoencoder based deep neural network for hyperspectral image denoising |
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Authors: | Paul Arati Kundu Ahana Chaki Nabendu Dutta Dibyendu Jha C S |
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Affiliation: | 1.Regional Remote Sensing Centre – East, NRSC, ISRO, Kolkata, India ;2.Department of Computer Science and Engineering, University of Calcutta, Kolkata, India ;3.Regional Centres, NRSC, ISRO, Hyderabad, India ; |
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Abstract: | Denoising of hyperspectral images (HSIs) is an important preprocessing step to enhance the performance of its analysis and interpretation. In reality, a remotely sensed HSI experiences disturbance from different sources and therefore gets affected by multiple noise types. However, most of the existing denoising methods concentrates in removal of a single noise type ignoring their mixed effect. Therefore, a method developed for a particular noise type doesn’t perform satisfactorily for other noise types. To address this limitation, a denoising method is proposed here, that effectively removes multiple frequently encountered noise patterns from HSI including their combinations. The proposed dual branch deep neural network based architecture works on wavelet transformed bands. The first branch of the network uses deep convolutional skip connected layers with residual learning for extracting local and global noise features. The second branch includes layered autoencoder together with subpixel upsampling that performs repeated convolution in each layer to extract prominent noise features from the image. Two hyperspectral datasets are used in the experiment to evaluate the performance of the proposed method for denoising of Gaussian, stripe and mixed noises. Experimental results demonstrate the superior performance of the proposed network compared to other state-of-the-art denoising methods with PSNR 36.74, SSIM 0.97 and overall accuracy 94.03?%. |
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