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Found 12 papers, 5 papers with code
Deep Linear Array Pushbroom Image Restoration: A Degradation Pipeline and Jitter-Aware Restoration Network
Both the proposed JARNet and LAP image synthesis pipeline establish a foundation for addressing this intricate challenge.
Revealing the preference for correcting separated aberrations in joint optic-image design
The joint design of the optical system and the downstream algorithm is a challenging and promising task.
Toward Real Flare Removal: A Comprehensive Pipeline and A New Benchmark
The procedure is comprehensive, where the similarity of scattered flares and the symmetric effect of reflected ghosts are realized.
Let Segment Anything Help Image Dehaze
Therefore, we propose a framework to integrate large-model prior into low-level computer vision tasks.
Optical Aberration Correction in Postprocessing using Imaging Simulation
Due to the spatial variation in optical aberrations, which cannot be avoided during the lens design process, recent commercial cameras have shifted some of these correction tasks from optical design to postprocessing systems.
Mobile Image Restoration via Prior Quantization
In digital images, the performance of optical aberration is a multivariate degradation, where the spectral of the scene, the lens imperfections, and the field of view together contribute to the results.
Computational Optics for Mobile Terminals in Mass Production
Correcting the optical aberrations and the manufacturing deviations of cameras is a challenging task.
Reliable Image Dehazing by NeRF
In order to obtain real shot data in different scenes, we used fog generators, array cameras, mobile phones, underwater cameras and drones to obtain haze data.
Non-blind optical degradation correction via frequency self-adaptive and finetune tactics
In mobile photography applications, limited volume constraints the diversity of optical design.
SRDiff: Single Image Super-Resolution with Diffusion Probabilistic Models
Single image super-resolution (SISR) aims to reconstruct high-resolution (HR) images from the given low-resolution (LR) ones, which is an ill-posed problem because one LR image corresponds to multiple HR images.
Extreme-Quality Computational Imaging via Degradation Framework
To meet the space limitation of optical elements, free-form surfaces or high-order aspherical lenses are adopted in mobile cameras to compress volume.
Evaluating Temporal Queries Over Video Feeds
We propose two techniques, MFS and SSG, to organize all detected objects in the intermediate data generation layer, which effectively, given the queries, minimizes the number of objects and frames that have to be considered during query evaluation.
