Large Language Models (LLMs) are extensively utilized for generating stories, showcasing their ability to handle complex, creative tasks. To begin the process of story generation, an initial textual prompt is required. The prompt is iteratively refined such that the discrepancy between the user’s expectations and the story generated from the prompt is minimized. Each iteration is a time-consuming process; the user needs to read and analyze the story in order to refine the prompt. A key insight from cognitive research suggests that analyzing visual data is 60,000 times faster than textual analysis. This paper proposes visual prompt engineering for story generation wherein textual prompts are transformed into images using a diffusion model, then refined based on the discrepancy between the user’s expectations and the generated image. This refined prompt is then used to generate a story. The entire process is repeated until the user is satisfied with the story. This method leverages the relative speed of image processing to enhance the quality of text generation per iteration. Experiments show that for the same number of iterations, stories generated by visual prompt engineering outperformed those generated by text-based prompts in terms of story quality.
Felix Deng (Sat,) studied this question.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: