Geometric Deep Learning on Graphs and Manifolds Using Mixture Model CNNs

Deep learning has achieved a remarkable performance breakthrough in several fields, most notably in speech recognition, natural language processing, and computer vision. In particular, convolutional neural network (CNN) architectures currently produce state-of-the-art performance on a variety of image analysis tasks such as object detection and recognition. Most of deep learning research has so far focused on dealing with 1D, 2D, or 3D Euclidean-structured data such as acoustic signals, images, or videos. Recently, there has been an increasing interest in geometric deep learning, attempting to generalize deep learning methods to non-Euclidean structured data such as graphs and manifolds, with a variety of applications from the domains of network analysis, computational social science, or computer graphics. In this paper, we propose a unified framework allowing to generalize CNN architectures to non-Euclidean domains (graphs and manifolds) and learn local, stationary, and compositional task-specific features. We show that various non-Euclidean CNN methods previously proposed in the literature can be considered as particular instances of our framework. We test the proposed method on standard tasks from the realms of image-, graph-and 3D shape analysis and show that it consistently outperforms previous approaches.

• Publication year

  2016

• Venue

  Computer Vision and Pattern Recognition

• Publication date

  2016-11-25

• Fields of study

  Mathematics, Computer Science

• Identifiers
  DOI 10.1109/CVPR.2017.576arXiv 1611.08402
• External record

  Open on Semantic Scholar

• Source metadata

  Semantic Scholar

• On image, graph, and 3D shape analysis tasks, the proposed method consistently outperforms previous approaches.

  Confidence 0.97

  뀨 (7c402c1b98) extractionAnonymous (12632b8b5f) review
• Several earlier non-Euclidean CNN methods are shown to be particular instances of the unified framework.

  Confidence 0.94

  Unknown
• A unified framework based on mixture model CNNs is proposed for generalizing CNN architectures to non-Euclidean domains such as graphs and manifolds while learning local, stationary, and compositional task-specific features.

  Confidence 0.98

  Unknown

• graphs

  data structure

  Discrete relational structures used as one target domain in the framework.

  뀨 (7c402c1b98) extractionAnonymous (12632b8b5f) review
• image, graph, and 3d shape analysis tasks

  evaluation setting

  The standard benchmark tasks from image, graph, and 3D shape analysis used in evaluation.

  뀨 (7c402c1b98) extractionAnonymous (12632b8b5f) review
• local, stationary, and compositional task-specific features

  feature type

  Task-specific feature patterns characterized by locality, stationarity, and compositionality.

  뀨 (7c402c1b98) extractionAnonymous (12632b8b5f) review
• manifolds

  data structure

  Continuous curved spaces used as the other target domain in the framework.

  뀨 (7c402c1b98) extractionAnonymous (12632b8b5f) review
• mixture model cnns

  method

  The paper's CNN formulation for geometric deep learning on graphs and manifolds.

  뀨 (7c402c1b98) extractionAnonymous (12632b8b5f) review
• non-euclidean cnn methods

  method

  Prior CNN variants designed for graph or manifold data.

  뀨 (7c402c1b98) extractionAnonymous (12632b8b5f) review
• non-euclidean domains

  data domain

  Structured data domains without a regular Euclidean grid, including graphs and manifolds.

  뀨 (7c402c1b98) extractionAnonymous (12632b8b5f) review
• unified framework

  framework

  A single framework introduced to express CNNs on non-Euclidean domains.

  뀨 (7c402c1b98) extractionAnonymous (12632b8b5f) review

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