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Summary:

Abstract: Interest in visualization design has increased in recent years. While there is a large body of existing work from which visualization designers can draw, much of the past research has focused on developing new tools and techniques that are aimed at specific contexts. Less focus has been placed on developing holistic frameworks, models, and theories that can guide visualization design at a general level--a level that transcends domains, data types, users, and other contextual factors. In addition, little emphasis has been placed on the thinking processes of designers, including the concepts that designers use, while they are engaged in a visualization design activity. In this book we present a general, holistic framework that is intended to support visualization design for human-information interaction. The framework is composed of a number of conceptual elements that can aid in design thinking. The core of the framework is a pattern language--consisting of a set of 14 basic, abstract patterns--and a simple syntax for describing how the patterns are blended. We also present a design process, made up of four main stages, for creating static or interactive visualizations. The 4-stage design process places the patterns at the core of designers' thinking, and employs a number of conceptual tools that help designers think systematically about creating visualizations based on the information they intend to represent. Although the framework can be used to design static visualizations for simple tasks, its real utility can be found when designing visualizations with interactive possibilities in mind--in other words, designing to support a human-information interactive discourse. This is especially true in contexts where interactive visualizations need to support complex tasks and activities involving large and complex information spaces. The framework is intended to be general and can thus be used to design visualizations for diverse domains, users, information spaces, and tasks in different fields such as business intelligence, health and medical informatics, digital libraries, journalism, education, scientific discovery, and others. Drawing from research in multiple disciplines, we introduce novel concepts and terms that can positively contribute to visualization design practice and education, and will hopefully stimulate further research in this area.

Table of Contents:

• 1. Introduction
• 1.1 Overview and motivation
• 1.2 Audience
• 1.3 Approach, scope, and intended use
• 1.4 Structure
• 2. Background
• 2.1 Notable contributions
• 2.1.1 Brief commentary
• 2.2 Comparison of this book to existing work
• 2.3 Science of visualization
• 2.4 Common terminology
• 2.5 Design patterns
• 2.6 Design frameworks
• 3. Conceptual elements of framework
• 3.1 Systems theory
• 3.2 Space
• 3.3 Information space
• 3.4 Representation space

• 3.5 Encoding vs. representing
• 3.6 Abstract vs. concrete: techniques, structures, and marks
• 3.7 Visualization techniques
• 3.8 Visual marks
• 3.9 Visual structures
• 3.10 Visual variables
• 4. Patterns
• 4.1 Definition and identification on patterns
• 4.2 Naming of patterns
• 4.3 Application of patterns
• 4.4 Anti-patterns
• 4.5 Instantiation and blending of patterns
• 4.6 Characterization of patterns
• 4.6.1 Token
• 4.6.2 Area
• 4.6.3 Branch
• 4.6.4 Cell
• 4.6.5 Coordinate
• 4.6.6 Cycle
• 4.6.7 Fusion
• 4.6.8 Group
• 4.6.9 Hierarchy
• 4.6.10 Link
• 4.6.11 List
• 4.6.12 Spectrum
• 4.6.13 Stack
• 4.6.14 Track
• 4.7 Categorization of patterns
• 4.8 Usage of patterns
• 5. Blending of patterns
• 5.1 Blending of patterns
• 5.1.1 Syntax
• 5.1.2 Self-blending and nesting
• 5.2 Operation of pattern language
• 5.2.1 Primary patterns
• 5.2.2 Substrate patterns
• 5.2.3 Relational patterns
• 5.3 Design and structural analysis
• 6. Human-information interaction
• 6.1 Human-visualization system
• 6.2 Activity, task, and interaction: a characterization
• 6.3 Interaction design
• 6.3.1 Interaction
• 6.3.2 Interactivity
• 6.3.3 Further sources
• 7. Design process
• 7.1 Design stages
• 7.1.1 Stage 1: information space and task space
• 7.1.2 Stage 2: patterns, blendings, and abstract structures
• 7.1.3 Stage 3: visualization techniques
• 7.1.4 Stage 4: concrete encoding and interaction
• 7.2 Visualization design for complex cognitive activities
• 8. Application of framework
• 8.1 Quality-of-life example
• 8.2 Genomics example
• 8.3 Education example
• 9. Discussion and summary
• References
• About the authors.

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Author/Creator:

Sedig, Kamran , author

Contributors:

Parsons, Paul (Computer scientist) , author

Languages:

English

Language Notes:

Item content: English

Main Work:

Design of visualizations for human-information interaction: a pattern-based framework [by Sedig, K.]

Related Series:

Synthesis lectures on visualization; #5

Subjects:

Information visualization

Human-computer interaction

General Notes:

Description based on: Online resource; title from PDF title page (Morgan & Claypool, viewed on May 13, 2016).
Includes bibliographical references (pages 165-184).

Physical Description:

1 online resource.

Digital Characteristics:

text file

Call Numbers:

QA76.9.I52 S433 2016eb

ISBNs:

9781627057486 (ebook)
162705748X (ebook)
9781627057479 (print) [Invalid]
1627057471 (print) [Invalid]

Other Standard Numbers:

10.2200/S00685ED1V01Y201512VIS005 (source: None)

OCLC Numbers:

949811123

Other Control Numbers:

EBC4515747 (source: MiAaPQ)
[Unknown Type]: ybp12971850