Automatically mimicking unique hand-drawn pencil lines

AlMeraj, Zainab; Wyvill, Brian; Isenberg, Tobias; Gooch, Amy A.; Guy, Richard

doi:10.1016/j.cag.2009.04.004

Cited by 25 publications

(20 citation statements)

References 33 publications

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“…These line models can, in turn, be applied to line renderers (e. g., [46,53]) to generate images that resemble-to varying degrees-traditional hand-drawn ones. More recently, NPR line models have been extended to be more examplebased, e. g., by taking the human arm movement into account in their generation [3]-a goal that we share for generating our sketchy lines.…”

Section: Sketchy Lines In Non-photorealistic Renderingmentioning

confidence: 99%

“…AlMeraj et al [3] empirically defined the time sampling parameter δt according to the length of the desired line: δt = 0.5s for lines shorter than 200 pixels, δt = 0.3s for lines of 200-400 pixels, and δt = 0.2s for lines longer than 400 pixels. They also fixed t f = 2s and D within [−5, 5] pixels range based on empirical evidence.…”

Section: Mimicking Hand-drawn Trajectoriesmentioning

confidence: 99%

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Evaluating Sketchiness as a Visual Variable for the Depiction of Qualitative Uncertainty

Boukhelifa

Bezerianos

Isenberg

et al. 2012

IEEE Trans. Visual. Comput. Graphics

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Section: Sketchy Lines In Non-photorealistic Renderingmentioning

confidence: 99%

Section: Mimicking Hand-drawn Trajectoriesmentioning

confidence: 99%

Evaluating Sketchiness as a Visual Variable for the Depiction of Qualitative Uncertainty

Boukhelifa

Bezerianos

Isenberg

et al. 2012

IEEE Trans. Visual. Comput. Graphics

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“…6). This was inspired by Gradwohl's [13] approach but we do not model line drawing with the sophistication of some NPR techniques (e. g., [1,37]). Our approach, instead, focuses on fast rendering, enabling interaction in a sketchy style.…”

Section: The Handy Rendering Librarymentioning

confidence: 99%

Sketchy Rendering for Information Visualization

Wood¹,

Isenberg²,

Isenberg³

et al. 2012

IEEE Trans. Visual. Comput. Graphics

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Numbers of extra votes recei ved as a bonus or depri ved from a candi date dependi ng on the fi rst letter of thei r surname. Abstract-We present and evaluate a framework for constructing sketchy style information visualizations that mimic data graphics drawn by hand. We provide an alternative renderer for the Processing graphics environment that redefines core drawing primitives including line, polygon and ellipse rendering. These primitives allow higher-level graphical features such as bar charts, line charts, treemaps and node-link diagrams to be drawn in a sketchy style with a specified degree of sketchiness. The framework is designed to be easily integrated into existing visualization implementations with minimal programming modification or design effort. We show examples of use for statistical graphics, conveying spatial imprecision and for enhancing aesthetic and narrative qualities of visualization. We evaluate user perception of sketchiness of areal features through a series of stimulus-response tests in order to assess users' ability to place sketchiness on a ratio scale, and to estimate area. Results suggest relative area judgment is compromised by sketchy rendering and that its influence is dependent on the shape being rendered. They show that degree of sketchiness may be judged on an ordinal scale but that its judgement varies strongly between individuals. We evaluate higher-level impacts of sketchiness through user testing of scenarios that encourage user engagement with data visualization and willingness to critique visualization design. Results suggest that where a visualization is clearly sketchy, engagement may be increased and that attitudes to participating in visualization annotation are more positive. The results of our work have implications for effective information visualization design that go beyond the traditional role of sketching as a tool for prototyping or its use for an indication of general uncertainty. A B C D E F G H

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“…House et al [26] generate sketchy renderings of a 3D model by using a Proportional Integral Derivative (PID) controller. AlMeraj et al [1] mimic the undulation of hand drawn pencil lines by using the minimum jerk model. Berio and Leymarie [6] use the sigma lognormal model [38] to interactively de ne the motion paths and variations of gra ti tag trajectories.…”

Section: Introductionmentioning

confidence: 99%

“…We describe a system that enables a user or an algorithm to rapidly de ne such traces through the speci cation of a control polygon made of a coarse sequence of targets. e user can then generate and interactively manipulate a family of motion trajectories, which follow the target layout (a) (1) (2) (1) is an original tag made with a marker by a gra ti artist; (2) a user rapidly sketches a control polygon by placing points (targets) near curvature extrema in overlay working from an image of the tag; (3) the user adjusts the Gaussians interactively to follow the trace of the original tag; (4) the reproduced tag rendered with a textured brush. (b) Variations on the tag by modifying the parameter d. (c) Variations on the tag generated from the speci ed targets using semi-tied covariances (illustrated as orientable yellow ellipses).…”

Section: Introductionmentioning

confidence: 99%

Dynamic Graffiti Stylisation with Stochastic Optimal Control

Berio

Calinon

Leymarie

2017

Proceedings of the 4th International Conference on Movement Computing

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We present a method for the interactive generation of stylised letters, curves and motion paths that are similar to the ones that can be observed in art forms such as gra ti and calligraphy. We de ne various stylisations of a le er form over a common geometrical structure, which is given by the spatial layout of a sparse sequence of targets. Di erent stylisations are then generated by optimising the trajectories of a dynamical system that tracks the target sequence.e evolution of the dynamical system is computed with a stochastic formulation of optimal control, in which each target is de ned probabilistically as a multivariate Gaussian. e covariance of each Gaussian explicitly de nes the variability as well as the curvilinear evolution of trajectory segments. Given this probabilistic formulation, the optimisation procedure results in a trajectory distribution rather than a single path. It is then possible to stochastically sample from the distribution an in nite number of dynamically and aesthetically consistent trajectories which mimic the variability that is typically observed in human drawing or writing. We further demonstrate how this system can be used together with a simple user interface in order to explore di erent stylisations of interactively or procedurally de ned le ers. CCS CONCEPTS•Computing methodologies →Procedural animation; •Humancentered computing →Gestural input; KEYWORDSHuman hand-writing movement modeling; procedural calligraphy; gra ti and tags generation; model predictive control; stochastic optimal control; smoothing splines; iconic and kinemic le er forms.

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Automatically mimicking unique hand-drawn pencil lines

Cited by 25 publications

References 33 publications

Evaluating Sketchiness as a Visual Variable for the Depiction of Qualitative Uncertainty

Evaluating Sketchiness as a Visual Variable for the Depiction of Qualitative Uncertainty

Sketchy Rendering for Information Visualization

Dynamic Graffiti Stylisation with Stochastic Optimal Control

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