• Wed. Nov 27th, 2024

Researchers from Meta AI Introduce Style Tailoring: A Text-to-Sticker Recipe to Finetune Latent Diffusion Models (LDMs) in a Distinct Domain with High Visual Quality

Nov 29, 2023

A team of researchers from GenAI, Meta, introduces Style Tailoring, a method for fine-tuning Latent Diffusion Models (LDMs) for sticker image generation to enhance visual quality, prompt alignment, and scene diversity. Starting with a text-to-image model like Emu, their study found that relying on fast engineering with a photorealistic model leads to poor alignment and variety in sticker generation. Style Tailoring involves:

  • Fine-tuning sticker-like images.
  • Human-in-the-loop datasets for alignment and style.
  • Addressing tradeoffs.
  • Jointly fitting content and style distributions. 

The study reviews progress in text-to-image generation, emphasizing the use of LDMs. Prior research explores various finetuning strategies, including aligning pretrained diffusion models to specific styles and user-provided images for subject-driven ages. It addresses challenges of prompt and fashion alignment through reward-weighted likelihood maximization and training an ImageReward model using human choices. Style Tailoring aims to balance the tradeoff between style and text faithfulness without additional latency at inference. 

The research explores advancements in diffusion-based text-to-image models, emphasizing their ability to generate high-quality images from natural language descriptions. It addresses the tradeoff between prompt and style alignment in fine-tuning LDMs for text-to-image tasks. The introduction of Style Tailoring aims to optimize fast alignment, visual diversity, and technique conformity for generating visually appealing stickers. The approach involves multi-stage finetuning with weakly aligned images, human-in-the-loop, and experts-in-the-loop stages. It also emphasizes the importance of transparency and scene diversity in the generated stickers.

The approach presents a multi-stage finetuning approach for text-to-sticker generation, including domain alignment, human-in-the-loop alignment for prompt improvement, and expert-in-the-loop alignment for style enhancement. Weakly supervised sticker-like images are used for domain alignment. The proposed Style Tailoring method jointly optimizes content and style distribution, achieving a balanced tradeoff between prompt and fashion alignment. Evaluation involves human assessments and metrics, focusing on visual quality, fast alignment, style alignment, and scene diversity in the generated stickers.

The Style Tailoring method significantly enhances sticker generation, improving visual quality by 14%, prompt alignment by 16.2%, and scene diversity by 15.3%, outperforming prompt engineering with the base Emu model. It exhibits generalization across different graphic styles. Evaluation involves human assessments and metrics like Fréchet DINO Distance and LPIPS for style alignment and scene diversity. Comparisons with baseline models demonstrate the method’s effectiveness, establishing its superiority in key evaluation metrics.

The study acknowledges limitations in prompt alignment and scene diversity when relying on fast engineering with a photorealistic model for sticker generation. Style tailoring improves promptness and style alignment, yet balancing the tradeoff remains challenging. The study’s focus on stickers and limited exploration of generalizability to other domains pose constraints. Scalability to larger-scale models, comprehensive comparisons, dataset limitations, and ethical considerations are noted areas for further research. It would benefit from more extensive evaluations and discussions on broader applications and potential biases in text-to-image generation.

In conclusion, Style Tailoring effectively improves the visual quality, prompt alignment, and scene diversity of LDM-generated sticker images. It surpassed the limitations of fast engineering with a photorealistic model and enhanced these aspects by 14%, 16.2%, and 15.3%, respectively, compared to the base Emu model. This method is applicable across multiple styles and maintains low latency. It emphasizes the importance of fine-tuning steps in a strategic sequence to achieve optimal results.


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The post Researchers from Meta AI Introduce Style Tailoring: A Text-to-Sticker Recipe to Finetune Latent Diffusion Models (LDMs) in a Distinct Domain with High Visual Quality appeared first on MarkTechPost.


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