Yiqi Yan scite author profile

Different from traditional hyperspectral super-resolution approaches that focus on improving the spatial resolution, spectral superresolution aims at producing a high-resolution hyperspectral image from the RGB observation with super-resolution in spectral domain. However, it is challenging to accurately reconstruct a high-dimensional continuous spectrum from three discrete intensity values at each pixel, since too much information is lost during the procedure where the latent hyperspectral image is downsampled (e.g., with ×10 scaling factor) in spectral domain to produce an RGB observation. To address this problem, we present a multi-scale deep convolutional neural network (CNN) to explicitly map the input RGB image into a hyperspectral image. Through symmetrically downsampling and upsampling the intermediate feature maps in a cascading paradigm, the local and non-local image information can be jointly encoded for spectral representation, ultimately improving the spectral reconstruction accuracy. Extensive experiments on a large hyperspectral dataset demonstrate the effectiveness of the proposed method.

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Learning to Segment Skin Lesions from Noisy Annotations

Mirikharaji

Yan

Hamarneh

2019

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Deep convolutional neural networks have driven substantial advancements in the automatic understanding of images. Requiring a large collection of images and their associated annotations is one of the main bottlenecks limiting the adoption of deep networks. In the task of medical image segmentation, requiring pixel-level semantic annotations performed by human experts exacerbate this difficulty. This paper proposes a new framework to train a fully convolutional segmentation network from a large set of cheap unreliable annotations and a small set of expert-level clean annotations. We propose a spatially adaptive reweighting approach to treat clean and noisy pixel-level annotations commensurately in the loss function. We deploy a meta-learning approach to assign higher importance to pixels whose loss gradient direction is closer to those of clean data. Our experiments on training the network using segmentation ground truth corrupted with different levels of annotation noise show how spatial reweighting improves the robustness of deep networks to noisy annotations.

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Accurate Spectral Super-resolution from Single RGB Image Using Multi-scale CNN

Yan

Zhang

et al. 2018

Preprint

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Yiqi Yan

Melanoma Recognition via Visual Attention

Accurate Spectral Super-Resolution from Single RGB Image Using Multi-scale CNN

Learning to Segment Skin Lesions from Noisy Annotations

Accurate Spectral Super-resolution from Single RGB Image Using Multi-scale CNN

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