Puneesh Deora scite author profile

This paper reviews the second AIM learned ISP challenge and provides the description of the proposed solutions and results. The participating teams were solving a real-world RAW-to-RGB mapping problem, where to goal was to map the original low-quality RAW images captured by the Huawei P20 device to the same photos obtained with the Canon 5D DSLR camera. The considered task embraced a number of complex computer vision subtasks, such as image demosaicing, denoising, white balancing, color and contrast correction, demoireing, etc. The target metric used in this challenge combined fidelity scores (PSNR and SSIM) with solutions' perceptual results measured in a user study. The proposed solutions significantly improved the baseline results, defining the state-of-the-art for practical image signal processing pipeline modeling. * A. Ignatov and R. Timofte ({andrey,radu.timofte}@vision.ee.ethz.ch, ETH Zurich) are the challenge organizers, while the other authors participated in the challenge. The Appendix A contains the authors' teams and affiliations. AIM 2020 webpage: https://data.vision.ee.ethz.ch/cvl/aim20/

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Structure Preserving Compressive Sensing MRI Reconstruction using Generative Adversarial Networks

Deora

Vasudeva

Bhattacharya

et al. 2020

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Compressive sensing magnetic resonance imaging (CS-MRI) accelerates the acquisition of MR images by breaking the Nyquist sampling limit. In this work, a novel generative adversarial network (GAN) based framework for CS-MRI reconstruction is proposed. Leveraging a combination of patchGAN discriminator and structural similarity index based loss, our model focuses on preserving high frequency content as well as fine textural details in the reconstructed image. Dense and residual connections have been incorporated in a U-net based generator architecture to allow easier transfer of information as well as variable network length. We show that our algorithm outperforms state-of-the-art methods in terms of quality of reconstruction and robustness to noise. Also, the reconstruction time, which is of the order of milliseconds, makes it highly suitable for real-time clinical use.

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Compressed Sensing MRI Reconstruction with Co-VeGAN: Complex-Valued Generative Adversarial Network

Vasudeva

Deora

Bhattacharya

et al. 2022

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LoOp: Looking for Optimal Hard Negative Embeddings for Deep Metric Learning

Vasudeva

Deora

Bhattacharya

et al. 2021

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Puneesh Deora

AIM 2020 Challenge on Learned Image Signal Processing Pipeline

AIM 2020 Challenge on Learned Image Signal Processing Pipeline

Structure Preserving Compressive Sensing MRI Reconstruction using Generative Adversarial Networks

Compressed Sensing MRI Reconstruction with Co-VeGAN: Complex-Valued Generative Adversarial Network

LoOp: Looking for Optimal Hard Negative Embeddings for Deep Metric Learning

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