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Superpixels

Superpixel techniques segment an image into regions based on similarity measures that utilize perceptual features, effectively grouping pixels that appear similar. The motivation behind this approach is to generate regions that provide meaningful descriptions while significantly reducing the data volume compared to using every individual pixel. By decreasing the number of primitives, these techniques reduce redundancy and simplify the complexity of recognition tasks. Superpixels replace the rigid structure of individual pixels with delineated regions that preserve meaningful content in the image, thereby aiding the interpretation of the scene’s structure and simplifying subsequent processing tasks. Generally, superpixel techniques rely on measures that evaluate color similarities and the shapes of regions, incorporating edges or significant changes in intensity to define these regions.

Papers

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Showing 176200 of 371 papers

TitleStatusHype
Monocular Piecewise Depth Estimation in Dynamic Scenes by Exploiting Superpixel Relations0
Learning Propagation for Arbitrarily-structured Data0
A superpixel-driven deep learning approach for the analysis of dermatological wounds0
Real-time Scalable Dense Surfel MappingCode0
Deep Green Function Convolution for Improving Saliency in Convolutional Neural Networks0
A Blind Multiscale Spatial Regularization Framework for Kernel-based Spectral Unmixing0
Gradient Weighted Superpixels for Interpretability in CNNs0
Recognizing Image Objects by Relational Analysis Using Heterogeneous Superpixels and Deep Convolutional Features0
Image Classification with Hierarchical Multigraph NetworksCode0
GASP, a generalized framework for agglomerative clustering of signed graphs and its application to Instance Segmentation0
Unsupervised skin tissue segmentation for remote photoplethysmography0
Co-Saliency Detection via Mask-Guided Fully Convolutional Networks With Multi-Scale Label Smoothing0
Closed-Loop Adaptation for Weakly-Supervised Semantic Segmentation0
Segmentation-Aware Hyperspectral Image Classification0
RGB-T Image Saliency Detection via Collaborative Graph LearningCode1
SCALP: Superpixels with Contour Adherence using Linear Path0
Robust superpixels using color and contour features along linear path0
SuperPatchMatch: an Algorithm for Robust Correspondences using Superpixel Patches0
Superpixel-based Color Transfer0
Superpixel Contracted Graph-Based Learning for Hyperspectral Image ClassificationCode0
Generating superpixels using deep image representations0
Unsupervised learning-based long-term superpixel tracking0
Texture-Aware Superpixel Segmentation0
Texture Relative Superpixel Generation With Adaptive Parameters0
Super-Trajectories: A Compact Yet Rich Video Representation0
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