A Study of Colormaps in Network Visualization

Karim, Raja Mubashar; Kwon, Oh-Hyun; Chan-Hee, Park; Lee, Kyungwon

doi:10.3390/app9204228

Cited by 9 publications

(7 citation statements)

References 38 publications

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“…By presenting a single perspective, overall cognition is increased, but it is visually incoherent since the position of nodes–its layout —is random. The layout, which determines the arrangement of nodes combined with other features such as colour, size and shape, 40 provides a visual representation of information that ensures clarity and understanding. When a simple radial layout (Figure 1D) (e.g., nodes do not overlap) is combined with node clustering and colouring depending on types and roles, it results in a final visual output that is considerably clearer than fig:Figure 1B.…”

Section: Resultsmentioning

confidence: 99%

A network approach to genetic circuit designs

Crowther

Wipat

Goñi-Moreno

2021

Preprint

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Visualising the complex information captured by synthetic biology designs is still a major challenge. The popular glyph approach where each genetic part is displayed on a linear sequence allows researchers to generate diagrams and visualise abstract designs, but only represents a single, static representation that results in visualisation that is not specific to the requirements of a user resulting in a one-size-fits-all visualisation. We developed a network visualisation technique that automatically turns all design information into a graph, displaying otherwise hidden data. The structure of the resulting graphs can be dynamically adjusted according to specific visualisation requirements, such as highlighting proteins, interactions or hierarchy. Since biological systems have an inherent affinity with network visualisation, we advocate for adopting this approach to standardise and automate the representation of complex information.

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Section: Resultsmentioning

confidence: 99%

A network approach to genetic circuit designs

Crowther

Wipat

Goñi-Moreno

2021

Preprint

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“…It was found that task performance varied with visual complexity of visualizations and task complexity. The impact of color coding was investigated by Karim et al [140] for node-link diagrams (see Figure 10) by recruiting 35 participants. Blue colormaps seem to perform much better as well as viridis, producing fewer errors.…”

Section: A: Enriched Graph Visualizationsmentioning

confidence: 99%

“…Also, difference maps as visual enrichment in dynamic graphs are beneficial to detect changes [48]. Typical visual variables like size and color [140], [142] are suitable visual enrichments, contour lines produce quite good effects [144], as well as motifs [143]. Moreover, group indications [145], [148], also shown by colored regions [146], are suitable features, but background color was found better than node color [147].…”

Section: A: Enriched Graph Visualizationsmentioning

confidence: 99%

The State of the Art in Empirical User Evaluation of Graph Visualizations

et al. 2021

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While graph drawing focuses more on the aesthetic representation of node-link diagrams, graph visualization takes into account other visual metaphors making them useful for graph exploration tasks in information visualization and visual analytics. Although there are aesthetic graph drawing criteria that describe how a graph should be presented to make it faster and more reliably explorable, many controlled and uncontrolled empirical user studies flourished over the past years. The goal of them is to uncover how well the human user performs graph-specific tasks, in many cases compared to previously designed graph visualizations. Due to the fact that many parameters in a graph dataset as well as the visual representation of them might be varied and many user studies have been conducted in this space, a state-of-the-art survey is needed to understand evaluation results and findings to inform the future design, research, and application of graph visualizations. In this article, we classify the present literature on the topmost level into graph interpretation, graph memorability, and graph creation where the users with their tasks stand in focus of the evaluation, not the computational aspects. As another outcome of this work, we identify the white spots in this field and sketch ideas for future research directions.

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“…Their method is only capable to approximate the wind velocity where the interpolations to all data points are lost. Karim [4] discussed the monotonic interpolating cure by using rational cubic spline of Karim and Kong [3]. Sarfraz et al [6] discussed the positivity preserving interpolation by using rational cubic spline with two parameters.…”

Section: Introductionmentioning

confidence: 99%

“…Condition (4) is the same as 0the sufficient condition for the positivity of the rational cubic interpolant defined by(3). For strictly positive data, the rational cubic spline interpolant ( )…”

mentioning

confidence: 99%

Wind Velocity Data Interpolation Using Rational Cubic Spline

Karim

Raju

2018

MATEC Web Conf.

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Wind velocity data is always having positive value and the minimum value approximately close to zero. The standard cubic spline interpolation (not-a-knot and natural) as well as cubic Hermite polynomial may be produces interpolating curve with negative values on some subintervals. To cater this problem, a new rational cubic spline with three parameters is constructed. This rational spline will be used to preserve the positivity of the wind velocity data. Numerical results shows that the proposed scheme work very well and give visually pleasing interpolating curve on the given domain.

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A Study of Colormaps in Network Visualization

Cited by 9 publications

References 38 publications

A network approach to genetic circuit designs

A network approach to genetic circuit designs

The State of the Art in Empirical User Evaluation of Graph Visualizations

Wind Velocity Data Interpolation Using Rational Cubic Spline

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