English

Entity-Level Text-Guided Image Manipulation

Computer Vision and Pattern Recognition 2023-02-23 v1

Abstract

Existing text-guided image manipulation methods aim to modify the appearance of the image or to edit a few objects in a virtual or simple scenario, which is far from practical applications. In this work, we study a novel task on text-guided image manipulation on the entity level in the real world (eL-TGIM). The task imposes three basic requirements, (1) to edit the entity consistent with the text descriptions, (2) to preserve the entity-irrelevant regions, and (3) to merge the manipulated entity into the image naturally. To this end, we propose an elegant framework, dubbed as SeMani, forming the Semantic Manipulation of real-world images that can not only edit the appearance of entities but also generate new entities corresponding to the text guidance. To solve eL-TGIM, SeMani decomposes the task into two phases: the semantic alignment phase and the image manipulation phase. In the semantic alignment phase, SeMani incorporates a semantic alignment module to locate the entity-relevant region to be manipulated. In the image manipulation phase, SeMani adopts a generative model to synthesize new images conditioned on the entity-irrelevant regions and target text descriptions. We discuss and propose two popular generation processes that can be utilized in SeMani, the discrete auto-regressive generation with transformers and the continuous denoising generation with diffusion models, yielding SeMani-Trans and SeMani-Diff, respectively. We conduct extensive experiments on the real datasets CUB, Oxford, and COCO datasets to verify that SeMani can distinguish the entity-relevant and -irrelevant regions and achieve more precise and flexible manipulation in a zero-shot manner compared with baseline methods. Our codes and models will be released at https://github.com/Yikai-Wang/SeMani.

Keywords

Cite

@article{arxiv.2302.11383,
  title  = {Entity-Level Text-Guided Image Manipulation},
  author = {Yikai Wang and Jianan Wang and Guansong Lu and Hang Xu and Zhenguo Li and Wei Zhang and Yanwei Fu},
  journal= {arXiv preprint arXiv:2302.11383},
  year   = {2023}
}

Comments

Extension of our CVPR 2022 oral paper: 2204.04428. Yikai Wang and Jianan Wang contribute equally. The arxiv version uses small size figures for fast preview, the full size pdf version can be found in our project page: https://yikai-wang.github.io/semani/. arXiv admin note: substantial text overlap with arXiv:2204.04428

R2 v1 2026-06-28T08:46:56.403Z