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Outline

Title
Abstract
Introduction
Our Three Visual Channel Design
The Color Sequence Design
Data Point Summary
Evaluation: Competing Designs
The Classic Design
Glyph-Based Design
Static Version of the Animated Design
Evaluation: Method
Experiment Design
Questionnaire
Evaluation: Results
Subjects
Quantitative Results
Qualitative Results
Discussion
References
All Topics
Computer Science
Human-Computer Interaction

Designing a better weather display

Profile image of Colin WareColin Ware

2012, Visualization and Data Analysis 2012

https://doi.org/10.1117/12.906213
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19 pages

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1 file

Abstract

Weather maps commonly display several variables at once, usually a subset of the following: atmospheric pressure, surface wind speed and direction, surface temperature, cloud cover, and precipitation. Most often, a single variable is mapped separately and occasionally two are shown together. But sometimes there is an attempt to show three or four variables with a result that is difficult to interpret because of visual interference between the graphical elements. As a design exercise, we set the goal of finding out if it is possible to show three variables (two 2D scalar fields and a 2D vector field) simultaneously so that values can be accurately read using keys for all variables, a reasonable level of detail is shown, and important meteorological features stand out clearly. Our solution involves employing three perceptual "channels": a color channel, a texture channel, and a motion channel in order to perceptually separate the variables and make them independently readable. We describe a set of interactive weather displays which enable users to view two meteorological scalar fields of various kinds and a field showing wind patterns. To evaluate the method we implemented three alternatives representations each simultaneously showing temperature, atmospheric pressure, wind speed and direction. Both animated and static variants of our new design were compared to a conventional solution and a glyphbased solution. The evaluation tested the abilities of participants both to read values using a key, and to see meteorological patterns in the data. Our new scheme was superior, especially in the representation of wind patterns using the motion channel. It also performed well enough in the representation of pressure using the texture channel to suggest it as a viable design alternative.

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