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Intrinsic Image Decomposition

Intrinsic Image Decomposition is the process of separating an image into its formation components such as reflectance (albedo) and shading (illumination). Reflectance is the color of the object, invariant to camera viewpoint and illumination conditions, whereas shading, dependent on camera viewpoint and object geometry, consists of different illumination effects, such as shadows, shading and inter-reflections. Using intrinsic images, instead of the original images, can be beneficial for many computer vision algorithms. For instance, for shape-from-shading algorithms, the shading images contain important visual cues to recover geometry, while for segmentation and detection algorithms, reflectance images can be beneficial as they are independent of confounding illumination effects. Furthermore, intrinsic images are used in a wide range of computational photography applications, such as material recoloring, relighting, retexturing and stylization.

Source: CNN based Learning using Reflection and Retinex Models for Intrinsic Image Decomposition

Papers

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Showing 125 of 85 papers

TitleStatusHype
Colorful Diffuse Intrinsic Image Decomposition in the WildCode3
Intrinsic Image Decomposition via Ordinal ShadingCode2
Outdoor inverse rendering from a single image using multiview self-supervisionCode1
Estimating Reflectance Layer from A Single Image: Integrating Reflectance Guidance and Shadow/Specular Aware LearningCode1
Creating a Forensic Database of Shoeprints from Online Shoe Tread PhotosCode1
DPF: Learning Dense Prediction Fields with Weak SupervisionCode1
Intrinsic Decomposition of Document Images In-the-WildCode1
Complementary Feature Enhanced Network with Vision Transformer for Image DehazingCode1
Exploiting Diffusion Prior for Generalizable Dense PredictionCode1
EndoMUST: Monocular Depth Estimation for Robotic Endoscopy via End-to-end Multi-step Self-supervised TrainingCode1
PIE-Net: Photometric Invariant Edge Guided Network for Intrinsic Image DecompositionCode1
Physically Inspired Dense Fusion Networks for RelightingCode1
PS-Diffusion: Photorealistic Subject-Driven Image Editing with Disentangled Control and AttentionCode1
Seeing a Rose in Five Thousand WaysCode1
A General Albedo Recovery Approach for Aerial Photogrammetric Images through Inverse RenderingCode1
Unsupervised Learning for Intrinsic Image Decomposition from a Single ImageCode1
Illumination-Aware Image Quality Assessment for Enhanced Low-light ImageCode1
Intrinsic Image Decomposition Using Point Cloud RepresentationCode1
ShadingNet: Image Intrinsics by Fine-Grained Shading DecompositionCode0
MLI-NeRF: Multi-Light Intrinsic-Aware Neural Radiance FieldsCode0
Intrinsic Image Transfer for Illumination ManipulationCode0
Joint Learning of Intrinsic Images and Semantic SegmentationCode0
Learning Blind Video Temporal ConsistencyCode0
HyperDID: Hyperspectral Intrinsic Image Decomposition with Deep Feature EmbeddingCode0
Learning Intrinsic Image Decomposition from Watching the WorldCode0
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