Element-conditioned GAN for graphic layout generation
Element-conditioned GAN for graphic layout generation
Layout guides the position and scale of design elements for desirable aesthetics and effective demonstration. Recently, Generative Adversarial Networks (GANs) have proved their capability in generating effective layouts. However, current GANs ignore the situation where the amounts and types of the input design elements are given and determined. In this paper, we propose EcGAN, an element-conditioned GAN for graphic layout generation conditioned on specified design elements (design elements’ amount and types). We represent each element by a bounding box and propose three components: element mask, element condition loss and two-step discriminators, to solve the bounding box modelling problem for element-conditioned layout generation. Experiments reveal that EcGAN outperforms existing methods quantitatively and qualitatively. We also perform detailed ablation studies to highlight the effect of each component and a user study to further validate our model. Finally, we demonstrate two of EcGAN’s applications for practical design scenarios.
Generative adversarial networks, Graphic design, Layout
Chen, Liuqing
653a5540-d3bd-470f-b6a9-e5984d0aa310
Jing, Qianzhi
333543a6-09eb-4d47-ba00-ae1421a98339
Zhou, Yunzhan
cb03860e-5494-4839-8857-6f622d4e8aed
Li, Zhaoxing
65935c45-a640-496c-98b8-43bed39e1850
Shi, Lei
3e73da43-5e7e-4544-a327-9de0046edfa2
Sun, Lingyun
3fdaac32-fe38-47d0-97fb-85326ee98e39
6 May 2024
Chen, Liuqing
653a5540-d3bd-470f-b6a9-e5984d0aa310
Jing, Qianzhi
333543a6-09eb-4d47-ba00-ae1421a98339
Zhou, Yunzhan
cb03860e-5494-4839-8857-6f622d4e8aed
Li, Zhaoxing
65935c45-a640-496c-98b8-43bed39e1850
Shi, Lei
3e73da43-5e7e-4544-a327-9de0046edfa2
Sun, Lingyun
3fdaac32-fe38-47d0-97fb-85326ee98e39
Chen, Liuqing, Jing, Qianzhi, Zhou, Yunzhan, Li, Zhaoxing, Shi, Lei and Sun, Lingyun
(2024)
Element-conditioned GAN for graphic layout generation.
Neurocomputing, 591, [127730].
(doi:10.1016/j.neucom.2024.127730).
Abstract
Layout guides the position and scale of design elements for desirable aesthetics and effective demonstration. Recently, Generative Adversarial Networks (GANs) have proved their capability in generating effective layouts. However, current GANs ignore the situation where the amounts and types of the input design elements are given and determined. In this paper, we propose EcGAN, an element-conditioned GAN for graphic layout generation conditioned on specified design elements (design elements’ amount and types). We represent each element by a bounding box and propose three components: element mask, element condition loss and two-step discriminators, to solve the bounding box modelling problem for element-conditioned layout generation. Experiments reveal that EcGAN outperforms existing methods quantitatively and qualitatively. We also perform detailed ablation studies to highlight the effect of each component and a user study to further validate our model. Finally, we demonstrate two of EcGAN’s applications for practical design scenarios.
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Accepted/In Press date: 20 April 2024
e-pub ahead of print date: 23 April 2024
Published date: 6 May 2024
Keywords:
Generative adversarial networks, Graphic design, Layout
Identifiers
Local EPrints ID: 492717
URI: http://eprints.soton.ac.uk/id/eprint/492717
ISSN: 0925-2312
PURE UUID: 8179a33b-b919-47b4-a16f-a6bca70ab59c
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Date deposited: 12 Aug 2024 16:49
Last modified: 13 Aug 2024 02:08
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Contributors
Author:
Liuqing Chen
Author:
Qianzhi Jing
Author:
Yunzhan Zhou
Author:
Zhaoxing Li
Author:
Lei Shi
Author:
Lingyun Sun
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