Novel View Synthesis via Depth-guided Skip Connections

01/05/2021

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We introduce a principled approach for synthesizing new views of a scene given a single source image. Previous methods for novel view synthesis can be divided into image-based rendering methods (e.g. flow prediction) or pixel generation methods. Flow predictions enable the target view to re-use pixels directly, but can easily lead to distorted results. Directly regressing pixels can produce structurally consistent results but generally suffer from the lack of low-level details. In this paper, we utilize an encoder-decoder architecture to regress pixels of a target view. In order to maintain details, we couple the decoder aligned feature maps with skip connections, where the alignment is guided by predicted depth map of the target view. Our experimental results show that our method does not suffer from distortions and successfully preserves texture details with aligned skip connections.

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Novel View Synthesis via Depth-guided Skip Connections

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Deep View Morphing

ID-Unet: Iterative Soft and Hard Deformation for View Synthesis

Learning Dual-Pixel Alignment for Defocus Deblurring

PVSeRF: Joint Pixel-, Voxel- and Surface-Aligned Radiance Field for Single-Image Novel View Synthesis

Hybrid Skip: A Biologically Inspired Skip Connection for the UNet Architecture

Learn how to Prune Pixels for Multi-view Neural Image-based Synthesis

Novel View Synthesis via Depth-guided Skip Connections

Related Research

Selective Information Passing for MR/CT Image Segmentation

Deep View Morphing

ID-Unet: Iterative Soft and Hard Deformation for View Synthesis

Learning Dual-Pixel Alignment for Defocus Deblurring

PVSeRF: Joint Pixel-, Voxel- and Surface-Aligned Radiance Field for Single-Image Novel View Synthesis

Hybrid Skip: A Biologically Inspired Skip Connection for the UNet Architecture

Learn how to Prune Pixels for Multi-view Neural Image-based Synthesis