arxiv_cv 95% Match Research Paper Computer vision researchers,Image processing engineers,Robotics engineers,Mobile app developers 20 hours ago

IllumFlow: Illumination-Adaptive Low-Light Enhancement via Conditional Rectified Flow and Retinex Decomposition

generative-ai › flow-models

📄 Abstract

Abstract: We present IllumFlow, a novel framework that synergizes conditional Rectified Flow (CRF) with Retinex theory for low-light image enhancement (LLIE). Our model addresses low-light enhancement through separate optimization of illumination and reflectance components, effectively handling both lighting variations and noise. Specifically, we first decompose an input image into reflectance and illumination components following Retinex theory. To model the wide dynamic range of illumination variations in low-light images, we propose a conditional rectified flow framework that represents illumination changes as a continuous flow field. While complex noise primarily resides in the reflectance component, we introduce a denoising network, enhanced by flow-derived data augmentation, to remove reflectance noise and chromatic aberration while preserving color fidelity. IllumFlow enables precise illumination adaptation across lighting conditions while naturally supporting customizable brightness enhancement. Extensive experiments on low-light enhancement and exposure correction demonstrate superior quantitative and qualitative performance over existing methods.

Key Contributions

Presents IllumFlow, a framework combining Conditional Rectified Flow (CRF) with Retinex theory for low-light image enhancement. It effectively decomposes images, models illumination variations as a flow field, and denoises reflectance, achieving precise illumination adaptation and high color fidelity.

Business Value

Improves image quality in challenging lighting conditions, enabling better visual perception for autonomous systems, enhanced surveillance capabilities, and higher quality consumer photography.

Paper Metadata

Innovation Type

Algorithmic

Deployment Feasibility

Feasible for integration into camera systems, mobile applications, and image processing pipelines, provided sufficient computational resources.

Limitations Addressed

Difficulty in handling wide dynamic range of illumination,Noise and chromatic aberration in low-light images,Preserving color fidelity during enhancement,Limitations of traditional enhancement methods

Technical Tags

Low-Light Image Enhancement (LLIE)Conditional Rectified Flow (CRF)Retinex DecompositionIllumination AdaptationReflectance ComponentIllumination ComponentDenoising NetworkFlow-derived Data AugmentationChromatic AberrationColor FidelityDynamic RangeContinuous Flow Field

Research Topics

Computer VisionImage ProcessingGenerative ModelsDeep LearningLow-light Imaging

Methods & Architectures

Conditional Rectified Flow (CRF)Retinex DecompositionDenoising NetworkFlow-derived data augmentation Conditional Rectified Flow (CRF)

Applications & Tasks

Photography Surveillance Autonomous Driving Robotics Medical Imaging Enhancing images captured in low-light conditionsHandling wide dynamic range of illumination variationsRemoving noise and chromatic aberration while preserving colorSeparating illumination and reflectance components Low-light image enhancementImage denoisingColor correction

Related Fields

Computer VisionImage ProcessingGenerative AIDeep LearningComputational Photography

Keywords

low-light enhancementimage enhancementrectified flowRetinexilluminationreflectancedenoisinggenerative AIcomputer visioncomputational photographyflow models

Academic Context

#Computer Vision#Image Processing#Generative Models#Deep Learning#Low-light Imaging

Commercial Potential

Potential Products

Low-light camera enhancement softwareImage processing librariesFeatures for mobile photography apps

Target Industries

Consumer ElectronicsAutomotiveSecurityPhotographyRobotics

Use Case Examples

Improving night vision for autonomous vehiclesEnhancing photos taken in dimly lit environmentsBoosting clarity in surveillance footage

Competitive Edge

Offers a novel approach by synergizing conditional rectified flow with Retinex decomposition, providing superior illumination adaptation and detail preservation compared to existing low-light enhancement techniques.

Market Opportunity

Large market for image enhancement technologies across various sectors.

Revenue Models

Licensing of algorithmsintegration into hardware/software products.

Resource Requirements

Compute Needs

Moderate to high, depending on image resolution and model complexity.

Data Requirements

Requires low-light and corresponding well-lit image pairs for training, or diverse low-light images for unsupervised/self-supervised training.

Deployment Constraints

Computational cost for real-time enhancement,Potential for artifacts if not carefully tuned

Scalability

Scalability depends on the efficiency of the flow model and denoising components.

Production Readiness

Maturity Level

Research

Time to Market

1-3 years

Patent Potential

Moderate, for the IllumFlow framework and its specific components.

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