Scientific Literature Efficient Underwater Image Super-Resolution via Learnable Color Conversion and Dual-Branch Mamba Network
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Underwater Image Enhancement Using Deep Learning: A Multi-Stage Processing Approach
Capturing images beneath the water surface is fundamentally different from photography in air. Water selectively absorbs different wavelengths of light, scatters photons through suspended particles...
Boosting underwater image quality: a deep learning approach to denoising and enhancement
Underwater image restoration is significant for various applications such as ecological evaluation, exploration, searching and rescue operations, and autonomous vehicle navigation. In underwater en...
An Attention-Enhanced Network with Joint Dehazing and Retinex-Based Enhancement for Underwater Images
Underwater images suffer from severe wavelength-dependent light absorption and scattering, and turbidity due to suspended particles, degrading visual quality for applications in autonomous underwat...
Smart Underwater Monitoring Through Image Enhancement and Object Detection using AI
Abstract - This literature survey examines the rapid advancement of Artificial Intelligence (AI) techniques for underwater image enhancement and object detection. It covers a wide range of approach...
Smart Underwater Monitoring Through Image Enhancement and Object Detection using AI
Abstract - This literature survey examines the rapid advancement of Artificial Intelligence (AI) techniques for underwater image enhancement and object detection. It covers a wide range of approach...
Frequently Asked Questions (FAQ)
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What is the core focus of the research titled 'Efficient Underwater Image Super-Resolution via Learnable Color Conversion and Dual-Branch Mamba Network'?
This literature focuses on: Underwater image super-resolution plays an important role in marine exploration, as it aims to recover clearer and higher-resolution images from degraded low-resolution observations. However, in underwater environments, this task is particularly c...
What other academic literature is closely related to 'Efficient Underwater Image Super-Resolution via Learnable Color Conversion and Dual-Branch Mamba Network'?
Yes, highly correlated activity was mapped. An entry titled 'Underwater Image Enhancement Using Deep Learning: A Multi-Stage Processing Approach' discusses this: Capturing images beneath the water surface is fundamentally different from photography in air. Water selectively absorbs different wavelengths of l...
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