AlignVid: Training-Free Attention Scaling for Semantic Fidelity in Text-Guided Image-to-Video Generation
Paper β’ 2512.01334 β’ Published
Datasets:
Tasks:
Image-to-Video
Languages:
English
Size:
n<1K
ArXiv:
Tags:
text-to-video
image-to-video
text-guided-image-to-video
benchmark
prompt-adherence
semantic-fidelity
License:
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OmitI2V
OmitI2V is a benchmark for evaluating semantic fidelity (prompt adherence) in text-guided image-to-video (TI2V) generation, focusing on prompts that require substantial edits to the reference image β object addition, deletion, and modification. It is the benchmark introduced in AlignVid: Taming Visual Dominance via Training-Free Attention Modulation in Text-guided Image-to-Video Generation (ICML 2026).
| π Paper | https://arxiv.org/abs/2512.01334 |
| π» Code | https://github.com/LAW1223/AlignVid |
| π Project page | https://law1223.github.io/AlignVid/ |
It contains 367 human-annotated samples. Each sample pairs a reference image with an editing instruction and a set of yes/no VQA questions that probe whether the requested edit is actually realized in the generated video.
Dataset structure
.
βββ meta.json # 367 annotated samples
βββ modification/ # reference images, organized by sub-category / domain
βββ addition/
βββ deletion/
Images are referenced by the image-path field in meta.json, relative to the dataset root (e.g., modification/pose/human/sample_0.jpg).
Fields (per entry in meta.json)
| field | type | description |
|---|---|---|
id |
str | unique sample id (e.g., sample_0) |
image-path |
str | reference image path, relative to the dataset root |
prompt |
str | the text instruction driving the video |
main-category |
str | one of modification, addition, deletion |
sub-category |
str | finer edit type (e.g., pose, appearance, element) |
domain |
str | content domain (e.g., human, animal, nature, building) |
type |
str | image source: real image, generated image, or animation image |
key |
list[str] | short keyword(s) summarizing the target change |
expected-change |
str | natural-language description of the expected edit |
resolution |
str | image resolution |
aspect_ratio |
str | image aspect ratio |
questions |
list[dict] | VQA items, each {id, question, expected_answer, category} |
Statistics
- Samples: 367
- Main category: modification 113 Β· addition 129 Β· deletion 125
- Image type: real image 290 Β· animation image 56 Β· generated image 21
- Domains: human, animal, nature, object, building, animation, environment, effect, and more.
Usage
import json
meta = json.load(open("meta.json", encoding="utf-8"))
print(len(meta)) # 367
ex = meta[0]
print(ex["prompt"]) # editing instruction
print(ex["image-path"]) # e.g. modification/pose/human/sample_0.jpg
for q in ex["questions"]:
print(q["question"], "->", q["expected_answer"])
The questions provide a yes/no protocol for measuring fine-grained edit compliance of a generated video against the prompt.
Evaluation
The full evaluation pipeline (VQA-based semantic fidelity with Qwen2.5-VL, plus VBench-style visual-quality metrics) and ready-to-edit inference scripts for FramePack, FramePack-F1, and Wan2.1 live in the AlignVid repository:
https://github.com/LAW1223/AlignVid
License
Released under the Apache-2.0 License.
Citation
@article{liu2025alignvid,
title={AlignVid: Training-Free Attention Scaling for Semantic Fidelity in Text-Guided Image-to-Video Generation},
author={Liu, Yexin and Shu, Wen-Jie and Huang, Zile and Zheng, Haoze and Wang, Yueze and Zhang, Manyuan and Lim, Ser-Nam and Yang, Harry},
journal={arXiv preprint arXiv:2512.01334},
year={2025}
}
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