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crossscore.active.vision |
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<!doctype html> | ||
<html lang="en"> | ||
<head> | ||
<meta charset="utf-8"> | ||
<meta name="viewport" content="width=device-width, initial-scale=1, shrink-to-fit=no"> | ||
<meta name="description" content="CrossScore: Towards Multi-View Image Evaluation and Scoring"> | ||
<meta name="author" content="Zirui Wang"> | ||
<meta name="generator" content="Jekyll v4.1.1"> | ||
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<title>CrossScore</title> | ||
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<body> | ||
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<main role="main" class="container"> | ||
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<div class="title"> | ||
<h1>CrossScore: Towards Multi-View Image Evaluation and Scoring</h1> | ||
<p>ECCV 2024</p> | ||
</div> | ||
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<div class="col text-center"> | ||
<p class="authors"> | ||
<a href="https://scholar.google.com/citations?user=zCBKqa8AAAAJ&hl=en">Zirui Wang</a> | ||
<a href="https://scholar.google.com/citations?user=IVfbqkgAAAAJ&hl=en">Wenjing Bian</a> | ||
<a href="http://www.robots.ox.ac.uk/~victor/">Victor Adrian Prisacariu</a> | ||
</p> | ||
<p class="institution"> | ||
University of Oxford | ||
</p> | ||
</div> | ||
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<div class="col text-center"> | ||
<a class="btn btn-secondary" href="https://arxiv.org/abs/2404.14409" role="button">Arxiv</a> | ||
<a class="btn btn-secondary" href="https://www.youtube.com/watch?v=YEgwIsN6xa4" role="button">Video</a> | ||
<a class="btn btn-secondary" href="" role="button">Code (Comming Soon)</a> | ||
</div> | ||
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<p> | ||
<b>TLDR</b>: | ||
This method evaluates an image by comparing it with multiple views of | ||
the same scene through cross-attention, eliminating the need for a | ||
pre-aligned ground truth image. | ||
</p> | ||
<p> | ||
<b>Application</b>: Evaluate rendered images from novel view | ||
synthesis (NVS) applications where ground truth references are unavailable. | ||
</p> | ||
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<div class="col text-center"> | ||
<figure class="figure"> | ||
<embed src="assets/04_main_results.jpg" alt="main results", class="responsive-figure"> | ||
<figcaption class="figcaption_left"> | ||
We introduce an image assessment method that examines query images by | ||
referencing multiple views of the same scene, | ||
producing results termed <b>CrossScore</b> maps. | ||
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Our results show that CrossScore is closely correlated with SSIM | ||
across diverse datasets, without requiring pre-aligned | ||
ground truth images. | ||
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<!-- Colour coding: | ||
<span style="color:brown;">red</span> represents the highest score, | ||
followed by | ||
<span style="color:orange;">orange</span>, | ||
<span style="color:green;">green</span>, and | ||
<span style="color:blue;">blue</span>, | ||
indicating decreasing scores respectively. --> | ||
</figcaption> | ||
</figure> | ||
</div> | ||
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<div class="col text-center"> | ||
<p><b>Presentation at ECCV 2024</b></p> | ||
</div> | ||
<div class="video-container"> | ||
<div class="embed-responsive embed-responsive-16by9"> | ||
<iframe src="https://www.youtube.com/embed/YEgwIsN6xa4?si=st97NMy9BLlN2teb" | ||
frameborder="0" allow="accelerometer; autoplay; encrypted-media; gyroscope; picture-in-picture" allowfullscreen> | ||
</iframe> | ||
</div> | ||
</div> | ||
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<h2>Abstract</h2> | ||
<p> | ||
We introduce a novel <i>Cross-Reference</i> image quality assessment | ||
method that effectively fills the gap in the image assessment | ||
landscape, complementing the array of established evaluation schemes -- | ||
ranging from | ||
<i>Full-Reference</i> metrics like SSIM, | ||
<i>No-Reference</i> metrics such as NIQE, to | ||
<i>General-Reference</i> metrics including FID, and | ||
<i>Multi-Modal-Reference</i> metrics, <i>e.g.</i> CLIPScore. | ||
</p> | ||
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<div class="col text-center"> | ||
<figure class="figure" style="max-width: 600px"> | ||
<embed src="assets/00_teaser.png" alt="IQA categories", class="responsive-figure"> | ||
<figcaption class="figcaption_left"> | ||
We propose a novel | ||
<b><span style="color:orange;">cross-reference</span></b> (<b>CR</b>) | ||
image quality assessment (IQA) scheme, which evaluates a query image | ||
using multiple unregistered reference images that are captured from | ||
different viewpoints. | ||
This approach sets a new research trajectory apart from conventional | ||
IQA schemes such as | ||
full-reference (<b>FR</b>), | ||
general-reference (<b>GR</b>), | ||
no-reference (<b>NR</b>), and | ||
multi-modal-reference (<b>MMR</b>). | ||
</figcaption> | ||
</figure> | ||
</div> | ||
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<p> | ||
Utilising a neural network with the cross-attention mechanism and a unique data collection | ||
pipeline from NVS optimisation, our method enables accurate image quality assessment without | ||
requiring ground truth references. | ||
By comparing a query image against multiple views of the same scene, our method addresses | ||
the limitations of existing metrics in novel view synthesis (NVS) and similar tasks where | ||
direct reference images are unavailable. | ||
Experimental results show that our method is closely correlated to the | ||
full-reference metric SSIM, while not requiring ground truth references. | ||
</p> | ||
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<h2>Method</h2> | ||
<p> | ||
Our goal is to evaluate the quality of a query image, using a set of reference images | ||
that capture the same scene as the query image but from other viewpoints. | ||
From the NVS application perspective, the query image is often a rendered image | ||
with artefacts, and the reference images consists of the real captured images. | ||
</p> | ||
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<div class="col text-center"> | ||
<figure class="figure"> | ||
<embed src="assets/01_method.png" alt="Method Overview", class="responsive-figure"> | ||
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<figcaption class="figcaption_left"> | ||
Method Overview. | ||
<b>Left</b>: Our NVS-based data engine that supplies query and reference images | ||
along with SSIM maps to drive the self-supervised training of our model. | ||
<b>Right</b>: Our model that takes a query image and a set of reference images | ||
as input and predicts a score map for the query image. | ||
</figcaption> | ||
</figure> | ||
</div> | ||
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<h3>Network</h3> | ||
<p> | ||
We propose a network that takes a query image and a set of reference images | ||
and predict a dense score map for the query image. | ||
Our network consists of three components: | ||
</p> | ||
<ol> | ||
<li> an image encoder which extracts feature maps from input images; </li> | ||
<li> a cross-reference module that associates a query image with multi-view reference images; and </li> | ||
<li> a score regression head that regresses a CrossScore for each pixel of the query image. </li> | ||
</ol> | ||
<p></p> | ||
In practice, we adapt | ||
a pretrained DINOv2-small model as the image encoder, | ||
a Transformer Decoder for the cross-reference module, and | ||
a shallow MLP for the score regression head. | ||
</p> | ||
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<h3>Self-supervised Training</h3> | ||
<p> | ||
We leverage existing NVS systems and abundant multi-view datasets to generate | ||
SSIM maps for our training. | ||
</p> | ||
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<p> | ||
Specifically, we select Neural Radiance Field (NeRF)-style NVS systems as | ||
our data engine. | ||
Given a set of images, a NeRF recovers a neural representation of a scene by | ||
iteratively reconstructing the given image set with photometric losses. | ||
</p> | ||
<p> | ||
By rendering images with the camera parameters from the original captured | ||
image set at multiple NeRF training checkpoints, we generate a large number of | ||
images that contain various types of artefacts at various levels. | ||
From which, we compute SSIM maps between | ||
rendered images and corresponding real captured images, which serve as | ||
our training objectives. | ||
</p> | ||
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<h2>Additional Results</h2> | ||
<figure> | ||
<video controls autoplay muted loop playsinline class="center_video"> | ||
<source src="assets/additional_results.mp4" type="video/mp4"> | ||
Your browser does not support the video tag. | ||
</video> | ||
<figcaption class="figcaption_left"> | ||
Evaluating images rendered from a popular NVS method (Gaussian-Splatting) | ||
using CrossScore and SSIM. | ||
CrossScore is highly correlated with SSIM, while not requiring | ||
ground truth images. | ||
</figcaption> | ||
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</figure> | ||
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<h2> Ablation: Enable and Disable Reference Images </h2> | ||
<p> | ||
Here, we show our method effectively leverage reference views while | ||
evaluating a query image. | ||
With reference images enabled (ON), the score map predicted | ||
by our method contains more details than when reference images | ||
are disabled (OFF), where the model tends to assign | ||
a high score everywhere. | ||
</p> | ||
<div class="col text-center"> | ||
<figure class="figure"> | ||
<embed src="assets/02_ablation.png" alt="Ablation", class="responsive-figure"> | ||
<figcaption> | ||
Ablation study on the importance of reference images. | ||
</figcaption> | ||
</figure> | ||
</div> | ||
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<h2> Attention Weights Visualisation </h2> | ||
<p> | ||
We further illustrate that our model indeed checking related context | ||
in reference images, as evidenced by the visualisation of attention maps below. | ||
</p> | ||
<div class="col text-center"> | ||
<figure class="figure"> | ||
<embed src="assets/03_attn.png" alt="BLEFF thumbnails", class="responsive-figure"> | ||
<figcaption class="figcaption_left"> | ||
Attention weights visualisation of our model. | ||
<b>Top left</b>: a query image with a region of interest (centre of image) | ||
highlighted with a <span style="color:magenta;">magenta</span> box. | ||
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<b>Right column</b>: three reference images from our cross-reference | ||
set with attention maps overlaid. The attention maps illustrate the attention | ||
that is paid to predicting image quality at the query region. | ||
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<span style="color:red;">Red</span> and | ||
<span style="color:blue;">blue</span> denote high and low | ||
attention weights respectively. | ||
Note that we use 5 reference images in our experiment, | ||
but only 3 are shown due to space constraint. | ||
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<b>Bottom</b>: Predicted CrossScore map and SSIM map. | ||
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<span style="color:red;">Red</span> and | ||
<span style="color:blue;">blue</span> denote high and low | ||
quality image regions respectively. | ||
</figcaption> | ||
</figure> | ||
</div> | ||
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<h2> Acknowledgement </h2> | ||
<p> | ||
This research is supported by an <a href="https://facebookresearch.github.io/projectaria_tools/docs/intro">ARIA</a> | ||
research gift grant from Meta Reality Lab. | ||
We gratefully thank | ||
<a href="https://elliottwu.com/">Shangzhe Wu</a>, | ||
<a href="https://tengdahan.github.io/">Tengda Han</a>, | ||
<a href="https://scholar.google.com/citations?user=31eXgMYAAAAJ&hl=en">Zihang Lai</a> | ||
for insightful discussions, and | ||
<a href="https://portraits.keble.net/2022/michael-hobley">Michael Hobley</a> | ||
for proofreading. | ||
</p> | ||
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<h2>BibTeX</h2> | ||
<pre> | ||
@inproceedings{wang2024crossscore, | ||
title={CrossScore: Towards Multi-View Image Evaluation and Scoring}, | ||
author={Zirui Wang and Wenjing Bian and Victor Adrian Prisacariu}, | ||
booktitle={ECCV}, | ||
year={2024} | ||
} | ||
</pre> | ||
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</main> | ||
</html> |
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