Controlling Stroke Size in Fast Style Transfer with Recurrent Convolutional Neural Network

Yang, Lingchen; Yang, Lumin; Zhao, Mingbo; Zheng, Youyi

doi:10.1111/cgf.13551

Cited by 11 publications

(1 citation statement)

References 16 publications

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“…For explicit control over stroke sizes, Jing et al [17] propose a multibranch network architecture that is trained on multiple, discrete stroke sizes that are then encoded in a stroke pyramid in the network. Yang et al [45] extend the stroke pyramid to arbitrary style transfer. Yao et al [46] propose an arbitrary style transfer method that furthermore uses an attention-based mechanism for multi-stroke transfer.…”

Section: Related Workmentioning

confidence: 99%

Controlling strokes in fast neural style transfer using content transforms

Reimann

Buchheim

Semmo³

et al. 2022

Vis Comput

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Fast style transfer methods have recently gained popularity in art-related applications as they make a generalized real-time stylization of images practicable. However, they are mostly limited to one-shot stylizations concerning the interactive adjustment of style elements. In particular, the expressive control over stroke sizes or stroke orientations remains an open challenge. To this end, we propose a novel stroke-adjustable fast style transfer network that enables simultaneous control over the stroke size and intensity, and allows a wider range of expressive editing than current approaches by utilizing the scale-variance of convolutional neural networks. Furthermore, we introduce a network-agnostic approach for style-element editing by applying reversible input transformations that can adjust strokes in the stylized output. At this, stroke orientations can be adjusted, and warping-based effects can be applied to stylistic elements, such as swirls or waves. To demonstrate the real-world applicability of our approach, we present StyleTune, a mobile app for interactive editing of neural style transfers at multiple levels of control. Our app allows stroke adjustments on a global and local level. It furthermore implements an on-device patch-based upsampling step that enables users to achieve results with high output fidelity and resolutions of more than 20 megapixels. Our approach allows users to art-direct their creations and achieve results that are not possible with current style transfer applications.

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Section: Related Workmentioning

confidence: 99%