论文信息 - Convolutions on Spherical Images

Convolutions on Spherical Images

Applying convolutional neural networks to spherical images requires particular considerations. We look to the millennia of work on cartographic map projections to provide the tools to define an optimal representation of spherical images for the convolution operation. We propose a representation for deep spherical image inference based on the icosahedral Snyder equal-area (ISEA) projection, a projection onto a geodesic grid, and show that it vastly exceeds the state-of-the-art for convolution on spherical images, improving semantic segmentation results by 12.6%.

Jan-Michael Frahm | Marc Eder | Jan-Michael Frahm | Marc Eder

[1] Kristen Grauman,et al. Snap Angle Prediction for 360 ∘ Panoramas , 2018, ECCV.

[2] Thomas A. Funkhouser,et al. Semantic Scene Completion from a Single Depth Image , 2016, 2017 IEEE Conference on Computer Vision and Pattern Recognition (CVPR).

[3] Andreas Geiger,et al. SphereNet: Learning Spherical Representations for Detection and Classification in Omnidirectional Images , 2018, ECCV.

[4] Sepp Hochreiter,et al. Fast and Accurate Deep Network Learning by Exponential Linear Units (ELUs) , 2015, ICLR.

[5] Charles T. Loop,et al. Smooth Subdivision Surfaces Based on Triangles , 1987 .

[6] Nassir Navab,et al. Distortion-Aware Convolutional Filters for Dense Prediction in Panoramic Images , 2018, ECCV.

[7] J. Snyder. An Equal-Area Map Projection For Polyhedral Globes , 1992 .

[8] Jimmy Ba,et al. Adam: A Method for Stochastic Optimization , 2014, ICLR.

[9] R. Fuller,et al. Synergetics: Explorations in the Geometry of Thinking , 1975 .

[10] Kristen Grauman,et al. Flat2Sphere: Learning Spherical Convolution for Fast Features from 360° Imagery , 2017, NIPS 2017.

[11] Petros Daras,et al. OmniDepth: Dense Depth Estimation for Indoors Spherical Panoramas , 2018, ECCV.

[12] K. Sahr,et al. Comparing Geometrical Properties of Global Grids , 1999 .

[13] Max Welling,et al. Convolutional Networks for Spherical Signals , 2017, ArXiv.