用于标签放置的图形变换器

Jingwei Qu;Pingshun Zhang;Enyu Che;Yinan Chen;Haibin Ling
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引用次数: 0

摘要

放置文字标签是解释特定场景中关键元素的常用方法。给定图形输入和原始标签信息后,如何放置标签才能同时满足几何和美学要求,这是一个具有挑战性的难题。从几何角度看,传统的规则驱动解决方案难以捕捉标签之间复杂的互动关系,更不用说考虑图形/外观内容了。在美学方面,训练/评估数据最好需要在设计方面付出非同小可的努力和专业知识,因此导致基于学习的方法缺乏像样的数据集。为了应对上述挑战,我们采用图表示法来制定任务,其中节点对应于标签,边对应于标签之间的交互,并将标签放置视为节点位置预测问题。利用这种新颖的表示方法,我们设计了一个标签放置图转换器(LPGT)来预测标签位置。具体来说,我们引入了以节点表示为条件的边缘级注意力,以揭示标签之间的潜在关系。为了整合图形/图像信息,我们设计了一种特征对齐策略,可以高效提取节点和边缘的深层特征。接下来,为了解决数据集问题,我们从家用电器手册中收集了具有专业设计标签布局的商业插图,并为其标注了有用信息,从而创建了一个名为 "家用电器手册插图标签(AMIL)"的新数据集。在对 AMIL 的全面评估中,我们的 LPGT 解决方案与流行的基线方案相比,在标签贴放方面取得了可喜的成绩。我们的算法和数据集可在 https://github.com/JingweiQu/LPGT 上查阅。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Graph Transformer for Label Placement
Placing text labels is a common way to explain key elements in a given scene. Given a graphic input and original label information, how to place labels to meet both geometric and aesthetic requirements is an open challenging problem. Geometry-wise, traditional rule-driven solutions struggle to capture the complex interactions between labels, let alone consider graphical/appearance content. In terms of aesthetics, training/evaluation data ideally require nontrivial effort and expertise in design, thus resulting in a lack of decent datasets for learning-based methods. To address the above challenges, we formulate the task with a graph representation, where nodes correspond to labels and edges to interactions between labels, and treat label placement as a node position prediction problem. With this novel representation, we design a Label Placement Graph Transformer (LPGT) to predict label positions. Specifically, edge-level attention, conditioned on node representations, is introduced to reveal potential relationships between labels. To integrate graphic/image information, we design a feature aligning strategy that extracts deep features for nodes and edges efficiently. Next, to address the dataset issue, we collect commercial illustrations with professionally designed label layouts from household appliance manuals, and annotate them with useful information to create a novel dataset named the Appliance Manual Illustration Labels (AMIL) dataset. In the thorough evaluation on AMIL, our LPGT solution achieves promising label placement performance compared with popular baselines. Our algorithm and dataset are available at https://github.com/JingweiQu/LPGT.
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