Rick Walker scite author profile

Data analysis often involves the comparison of complex objects. With the ever increasing amounts and complexity of data, the demand for systems to help with these comparisons is also growing. Increasingly, information visualization tools support such comparisons explicitly, beyond simply allowing a viewer to examine each object individually. In this paper, we argue that the design of information visualizations of complex objects can, and should, be studied in general, that is independently of what those objects are. As a first step in developing this general understanding of comparison, we propose a general taxonomy of visual designs for comparison that groups designs into three basic categories, which can be combined. To clarify the taxonomy and validate its completeness, we provide a survey of work in information visualization related to comparison. Although we find a great diversity of systems and approaches, we see that all designs are assembled from the building blocks of juxtaposition, superposition and explicit encodings. This initial exploration shows the power of our model, and suggests future challenges in developing a general understanding of comparative visualization and facilitating the development of more comparative visualization tools.

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A dual-process account of the development of scientific reasoning: The nature and development of metacognitive intercession skills

Amsel

Klaczynski

Johnston

et al. 2008

Cognitive Development

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Visualization for the Physical Sciences

Lipsa

Laramee

Cox

et al. 2012

Computer Graphics Forum

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An Extensible Framework for Provenance in Human Terrain Visual Analytics

Walker

Slingsby

Dykes

et al. 2013

IEEE Trans. Visual. Comput. Graphics

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Fig. 1: Graphical summaries of bookmarks are used to record and browse the analytical process, here ordered (row-by-row) in the sequence in which they were bookmarked. Each can be used to access the live data, enabling analysts to revisit parts of the analytical process and helping verify past interpretations. A legend describing the encodings is provided in Fig. 6.Abstract-We describe and demonstrate an extensible framework that supports data exploration and provenance in the context of Human Terrain Analysis (HTA). Working closely with defence analysts we extract requirements and a list of features that characterise data analysed at the end of the HTA chain. From these, we select an appropriate non-classified data source with analogous features, and model it as a set of facets. We develop ProveML, an XML-based extension of the Open Provenance Model, using these facets and augment it with the structures necessary to record the provenance of data, analytical process and interpretations. Through an iterative process, we develop and refine a prototype system for Human Terrain Visual Analytics (HTVA), and demonstrate means of storing, browsing and recalling analytical provenance and process through analytic bookmarks in ProveML. We show how these bookmarks can be combined to form narratives that link back to the live data. Throughout the process, we demonstrate that through structured workshops, rapid prototyping and structured communication with intelligence analysts we are able to establish requirements, and design schema, techniques and tools that meet the requirements of the intelligence community. We use the needs and reactions of defence analysts in defining and steering the methods to validate the framework.

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TimeSets: Timeline visualization with set relations

Nguyêñ

Walker

et al. 2015

Information Visualization

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Rick Walker

Visual comparison for information visualization

A dual-process account of the development of scientific reasoning: The nature and development of metacognitive intercession skills

Visualization for the Physical Sciences

An Extensible Framework for Provenance in Human Terrain Visual Analytics

TimeSets: Timeline visualization with set relations

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