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From: Gene Cheung <[log in to unmask]>
Date: Sat, 12 Jun 2021 11:18:11 +0000
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Reply-To: Gene Cheung <[log in to unmask]>
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Please consider submission to the following ICCV'21 workshop.

Summary:

Graph signal processing (GSP) is the study of computational tools to process and analyze data residing on irregular correlation structures described by graphs. Early GSP researchers explored low-dimensional representations of high-dimensional data via spectral graph theory -- mathematical analysis of eigen-structures of the adjacency and graph Laplacian matrices. Researchers first developed algorithms for low-level tasks such as signal compression, wavelet decomposition, filter banks on graphs, regression, and denoising, motivated by data collected from distributed sensor networks. Soon, researchers widened their scope and studied GSP techniques for image applications (image filtering, segmentation) and computer graphics. More recently, GSP tools were extended to video processing tasks such as moving object segmentation, demonstrating its potential in a wide range of computer vision problems. More generally, GSP has been found effective in image processing tasks (image restoration and denoising, image composition, image alignment and rectification, multi focus image fusion, etc) video processing tasks (motion saliency, video coding, background/foreground separation, etc), and 3-D imaging tasks (point cloud processing, 3-D motion recovery,
etc.). Moreover, GSP can potentially influence the development of Graph Convolutional Networks from a theoretical standpoint.

However, designing GSP algorithms for specific computer vision tasks has several practical challenges such as spatio-temporal constraints, time varying models and real-time implementations. Indeed, the computational complexity of many existing GSP algorithms at present for very large graphs is currently one limitation. In semi-supervised learning, GSP-based classifiers provide clear interpretations from a graph spectral perspective when propagating label information from known to unknown nodes. However, centralized graph spectral algorithms are slow and no fast distributed graph labeling algorithms are known to perform well. In that sense, research is required in the development of fast GSP tools to be competitive against deep learning methods.

The goals of this workshop are thus three-fold

  1.  Designing GSP methods for computer vision applications
  2.  Proposing new adaptive and incremental algorithms that reach the requirements of real time applications
  3.  Proposing robust and interpretable algorithms to handle the key challenges in computer vision applications

Scope:

Papers are solicited to address graph signal processing to be applied in computer vision, including but not limited to the followings:

  *   Sampling and Recovery of Graph Signals
  *   Statistical Graph Signal Processing
  *   Non-linear Graph Signal Processing
  *   Signals in high order Graphs
  *   Graph based Image Restoration
  *   Graph based Image Filtering
  *   Graph based Segmentation and Classification
  *   Graph based Image and Video Processing
  *   Graph Convolutional Networks.(GNNs)
  *   Interpretable/Explainable GNNs
  *   Unsupervised/Self Supervised GNNs
  *   GSP based Graph Learning in GNNs

Important Dates:

Full Paper Submission Deadline:
July 13, 2021 (for papers not submitted at ICCV)
July 25, 2021 (for papers that are awaiting for ICCV decisions)
Decisions to Authors:  July 31, 2021
Camera ready Deadline: August 14, 2021

Please refer to the website for more detailed information: https://gsp-cv.univ-lr.fr/gspcv-21/



Gene Cheung
York University, Toronto, Canada
https://www.eecs.yorku.ca/~genec/index.html


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