Shuran Song scite author profile

This paper focuses on semantic scene completion, a task for producing a complete 3D voxel representation of volumetric occupancy and semantic labels for a scene from a single-view depth map observation. Previous work has considered scene completion and semantic labeling of depth maps separately. However, we observe that these two problems are tightly intertwined. To leverage the coupled nature of these two tasks, we introduce the semantic scene completion network (SSCNet), an end-to-end 3D convolutional network that takes a single depth image as input and simultaneously outputs occupancy and semantic labels for all voxels in the camera view frustum. Our network uses a dilation-based 3D context module to efficiently expand the receptive field and enable 3D context learning. To train our network, we construct SUNCG -a manually created largescale dataset of synthetic 3D scenes with dense volumetric annotations. Our experiments demonstrate that the joint model outperforms methods addressing each task in isolation and outperforms alternative approaches on the semantic scene completion task. The dataset, code and pretrained model will be available online upon acceptance.

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SUN RGB-D: A RGB-D scene understanding benchmark suite

Song

2015

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Matterport3D: Learning from RGB-D Data in Indoor Environments

et al. 2017

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Access to large, diverse RGB-D datasets is critical for training RGB-D scene understanding algorithms. However, existing datasets still cover only a limited number of views or a restricted scale of spaces. In this paper, we introduce Matterport3D, a large-scale RGB-D dataset containing 10,800 panoramic views from 194,400 RGB-D images of 90 building-scale scenes. Annotations are provided with surface reconstructions, camera poses, and 2D and 3D semantic segmentations. The precise global alignment and comprehensive, diverse panoramic set of views over entire buildings enable a variety of supervised and self-supervised computer vision tasks, including keypoint matching, view overlap prediction, normal prediction from color, semantic segmentation, and region classification.

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3DMatch: Learning Local Geometric Descriptors from RGB-D Reconstructions

et al. 2017

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Matching local geometric features on real-world depth images is a challenging task due to the noisy, lowresolution, and incomplete nature of 3D scan data. These difficulties limit the performance of current state-of-art methods, which are typically based on histograms over geometric properties. In this paper, we present 3DMatch, a data-driven model that learns a local volumetric patch descriptor for establishing correspondences between partial 3D data. To amass training data for our model, we propose a self-supervised feature learning method that leverages the millions of correspondence labels found in existing RGB-D reconstructions. Experiments show that our descriptor is not only able to match local geometry in new scenes for reconstruction, but also generalize to different tasks and spatial scales (e.g. instance-level object model alignment for the Amazon Picking Challenge, and mesh surface correspondence). Results show that 3DMatch consistently outperforms other state-of-the-art approaches by a significant margin. Code, data, benchmarks, and pre-trained models are available online at http://3dmatch.cs.princeton.edu.

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LSUN: Construction of a Large-scale Image Dataset using Deep Learning with Humans in the Loop

Yu¹,

Zhang²,

Song³

et al. 2015

Preprint

699

819

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Shuran Song

Semantic Scene Completion from a Single Depth Image

SUN RGB-D: A RGB-D scene understanding benchmark suite

Matterport3D: Learning from RGB-D Data in Indoor Environments

3DMatch: Learning Local Geometric Descriptors from RGB-D Reconstructions

LSUN: Construction of a Large-scale Image Dataset using Deep Learning with Humans in the Loop

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