Kerren, A., Ebert, A. and Meyer J. (Eds.): Human-centered Visualization Environments, volume 4417 of LNCS Tutorial, Springer, 2007: Difference between revisions
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<b>Publication Date:</b> July 2007<br> | <b>Publication Date:</b> July 2007<br> | ||
<b>Series:</b> Volume 4417 of LNCS Tutorial<br> | <b>Series:</b> Volume 4417 of LNCS Tutorial<br> | ||
This tutorial book features an augmented selection of the material presented at the GI-Dagstuhl Research Seminar on Human-Centered Visualization Environments, HCVE 2006, held in Dagstuhl Castle, Germany in March 2006. It presents eight tutorial lectures that are the thoroughly cross-reviewed and revised versions of the summaries and findings presented and discussed at the seminar. After an introduction to human-centered visualization environments, the book shows the fundamental principles and methods in that area, such as human-centered aspects, interacting with visualizations, visual representations, as well as challenges and unsolved problems. The book also includes lectures on domain-specific visualization describing geographic visualization, algorithm animation, and biomedical information visualization. [Springer, 2007] | This tutorial book features an augmented selection of the material presented at the GI-Dagstuhl Research Seminar on Human-Centered Visualization Environments, HCVE 2006, held in Dagstuhl Castle, Germany in March 2006. It presents eight tutorial lectures that are the thoroughly cross-reviewed and revised versions of the summaries and findings presented and discussed at the seminar. After an introduction to human-centered visualization environments, the book shows the fundamental principles and methods in that area, such as human-centered aspects, interacting with visualizations, visual representations, as well as challenges and unsolved problems. The book also includes lectures on domain-specific visualization describing geographic visualization, algorithm animation, and biomedical information visualization. [Springer, 2007] | ||
{{ISBN|978-3-540-71948-9}} | {{ISBN|978-3-540-71948-9}} | ||
== Table of Contents == | |||
*Preface | |||
*List of Contributors | |||
*1 Introduction to Human-Centered Visualization Environments (A. Kerren, A. Ebert, and J. Meyer) | |||
*2 Human-Centered Aspects (O. Kulyk, R. Kosara, J. Urquiza, and I. Wassink) | |||
**2.1 Human-Centered Approach | |||
**2.2 Usability in Human-Centered Design | |||
***2.2.1 Defining Usability | |||
***2.2.2 Evaluating Usability | |||
***2.2.3 Improving Usability | |||
***2.2.4 Usability and Information Overload | |||
**2.3 User Aims and Requirements | |||
***2.3.1 Characteristics of Good Visualizations and User Interfaces | |||
***2.3.2 Essential Elements of Successful Visualization | |||
***2.3.3 Dimensions in Visualization | |||
***2.3.4 Steps in Visualization Design | |||
***2.3.5 The Design Cycle | |||
***2.3.6 User Analysis | |||
***2.3.7 User Requirements | |||
***2.3.8 Task Analysis | |||
***2.3.9 Task Modeling | |||
***2.3.10 Designing for and with Users | |||
**2.4 Evaluation of Visualization Environments | |||
***2.4.1 Human-Centered Evaluation in Visualization Practice | |||
***2.4.2 Evaluation Methods | |||
***2.4.3 Designing Experiments | |||
***2.4.4 Challenges in Evaluation of Collaborative Visualization Environments | |||
**2.5 User Studies and a Science of Visualization | |||
***2.5.1 Survey of Information Visualization Studies | |||
***2.5.2 The Future of User Studies | |||
**2.6 Chapter Notes | |||
*3 Interacting with Visualizations (W. Fikkert, M. D’Ambros, T. Bierz, and T.J. Jankun-Kelly) | |||
**3.1 Interaction | |||
***3.1.1 Describing Interaction | |||
***3.1.2 Defining Interaction | |||
**3.2 Influences of Display Technologies | |||
***3.2.1 Survey of Display Technologies | |||
***3.2.2 Scales of Interaction | |||
***3.2.3 Display Interaction Modalities and Media | |||
***3.2.4 Interfaces and Usability for Novel Displays | |||
***3.2.5 Display Device Challenges in Visualization | |||
**3.3 Multimodal Interaction | |||
***3.3.1 Unimodality Versus Multimodality | |||
***3.3.2 Issues to Deal with in Multimodal Interaction | |||
***3.3.3 Myths of Multimodality | |||
***3.3.4 Survey of Enabling Technologies | |||
***3.3.5 Overview of Approaches to Multimodal Interaction | |||
***3.3.6 Enabling Multimodal Interaction | |||
**3.4 Visualizations in Multi-party Environments | |||
***3.4.1 Collaborating with Visualizations | |||
***3.4.2 Models for Distributed Collaborative Visualization | |||
***3.4.3 Evaluation Criteria | |||
***3.4.4 Survey of Collaborative Visualization Systems | |||
***3.4.5 Challenges for Multi-party Visualizations | |||
**3.5 Chapter Notes | |||
*4 Visual Representations (C. Görg, M. Pohl, E. Qeli, and K. Xu) | |||
**4.1 Perceptual and Cognitive Issues | |||
***4.1.1 The Visualization Process | |||
***4.1.2 Types of Data | |||
***4.1.3 Preattentive Processing | |||
**4.2 Information Visualization Criteria and Metaphors | |||
***4.2.1 Information Visualization Criteria | |||
***4.2.2 Metaphors | |||
**4.3 Multivariate Visualization Techniques | |||
***4.3.1 Low-Dimensional Data Visualization | |||
***4.3.2 Multidimensional Data Visualization | |||
***4.3.3 Usability Issues on Multidimensional Data Visualization | |||
**4.4 Graphs and Trees | |||
***4.4.1 Applications | |||
***4.4.2 Background | |||
***4.4.3 Aesthetics vs. Graph Readability | |||
***4.4.4 Layout vs. Graph Readability | |||
***4.4.5 Large Graphs | |||
***4.4.6 Integrated Graph Drawing | |||
***4.4.7 Labeling of Graphs | |||
**4.5 Multiple Views | |||
***4.5.1 Classification | |||
***4.5.2 The Design of Multiple Views | |||
***4.5.3 Interaction | |||
***4.5.4 Comparison with Integrated Views | |||
**4.6 Chapter Notes | |||
*5 Challenges and Unsolved Problems (R.S. Laramee, R. Kosara) | |||
**5.1 Classification of Future Challenges and Unsolved Problems in Human-Centered Visualization | |||
***5.1.1 Human-Centered Challenges | |||
***5.1.2 Technical Challenges | |||
***5.1.3 Financial Challenges | |||
**5.2 Chapter Notes | |||
*6 Geographic Visualization (M. Nöllenburg) | |||
**6.1 Goals of Geovisualization | |||
**6.2 Driving Forces of Geovisualization | |||
**6.3 Cognitive Aspects | |||
***6.3.1 Visual Thinking | |||
***6.3.2 Graphic Variables | |||
**6.4 Visualization Methods and Techniques | |||
***6.4.1 Geospatial Data | |||
***6.4.2 2D Cartographic Visualization | |||
***6.4.3 3D Cartographic Visualization | |||
***6.4.4 Visual Data Mining Tools | |||
***6.4.5 Animation | |||
***6.4.6 Spatio-Temporal Visualization | |||
***6.4.7 Interactive User Interfaces | |||
***6.4.8 Combining Visual and Computational Exploration | |||
**6.5 Geovisualization Tools | |||
**6.6 Usability of Geovisualization Systems | |||
***6.6.1 Involving Users in the Design of Geovisualizations | |||
***6.6.2 Results from User Studies | |||
***6.6.3 Geovisualization to Support Group Work | |||
**6.7 Chapter Notes | |||
*7 Algorithm Animation (A. Moreno) | |||
**7.1 Overview | |||
**7.2 Users of Algorithm Animation | |||
**7.3 Taxonomies for Algorithm Animation Tools | |||
**7.4 Review of Tools and Their Evaluations | |||
***7.4.1 Concept Keyboards for Algorithm Visualization | |||
***7.4.2 Matrix and MatrixPro | |||
***7.4.3 Alvis and Alvis Live! | |||
***7.4.4 Alice | |||
***7.4.5 Jeliot 3/Jeliot 2000 | |||
***7.4.6 JHAVÉ | |||
***7.4.7 WinHipe | |||
***7.4.8 User Studies Compilation | |||
**7.5 Chapter Notes | |||
*8 Biomedical Information Visualization (M. Lungu, K. Xu) | |||
**8.1 Phylogenetic Tree Visualization | |||
***8.1.1 Small Trees – Working in Euclidean Space | |||
***8.1.2 Large Trees – Using Focus and Context | |||
***8.1.3 Very Large Trees – Hyperbolic 3D Space | |||
***8.1.4 Discussion and Further Reading | |||
**8.2 Sequence Alignment | |||
***8.2.1 Sequence Logos | |||
***8.2.2 Editing and Visualizing Sequence Alignment: Jalview | |||
***8.2.3 Vista: Online Visualization of DNA Alignment | |||
***8.2.4 Sequence Walkers | |||
***8.2.5 Dot Plots | |||
***8.2.6 Arc Diagrams | |||
***8.2.7 Discussion and Further Reading | |||
**8.3 Biochemical Network Analysis | |||
***8.3.1 Cytoscape | |||
***8.3.2 Biochemical Pathway Analysis | |||
***8.3.3 Layout for Large Biochemical Networks: LGL | |||
***8.3.4 Discussion and Further Reading | |||
**8.4 Microarray Data Visualization | |||
***8.4.1 TreeView | |||
***8.4.2 Hierarchical Clustering Explorer | |||
***8.4.3 Evaluation of Microarray Visualization Tools | |||
**8.5 Medical Records Visualization | |||
***8.5.1 LifeLines: Visualizing Patient Temporal Data | |||
***8.5.2 The Cube: Multidimensional Analysis of Medical Records | |||
***8.5.3 Visualizing Medical Practice Guidelines and Protocols | |||
**8.6 Chapter Notes | |||
*Bibliography | |||
*Author Index | |||
*Index | |||
== References == | == References == |
Latest revision as of 08:06, 17 August 2010
Type: Softcover
Editors: Andreas Kerren, Achim Ebert, and Jörg Meyer
Pages: 403
Publisher: Springer
Publication Date: July 2007
Series: Volume 4417 of LNCS Tutorial
This tutorial book features an augmented selection of the material presented at the GI-Dagstuhl Research Seminar on Human-Centered Visualization Environments, HCVE 2006, held in Dagstuhl Castle, Germany in March 2006. It presents eight tutorial lectures that are the thoroughly cross-reviewed and revised versions of the summaries and findings presented and discussed at the seminar. After an introduction to human-centered visualization environments, the book shows the fundamental principles and methods in that area, such as human-centered aspects, interacting with visualizations, visual representations, as well as challenges and unsolved problems. The book also includes lectures on domain-specific visualization describing geographic visualization, algorithm animation, and biomedical information visualization. [Springer, 2007]
ISBN 978-3-540-71948-9
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Table of Contents
- Preface
- List of Contributors
- 1 Introduction to Human-Centered Visualization Environments (A. Kerren, A. Ebert, and J. Meyer)
- 2 Human-Centered Aspects (O. Kulyk, R. Kosara, J. Urquiza, and I. Wassink)
- 2.1 Human-Centered Approach
- 2.2 Usability in Human-Centered Design
- 2.2.1 Defining Usability
- 2.2.2 Evaluating Usability
- 2.2.3 Improving Usability
- 2.2.4 Usability and Information Overload
- 2.3 User Aims and Requirements
- 2.3.1 Characteristics of Good Visualizations and User Interfaces
- 2.3.2 Essential Elements of Successful Visualization
- 2.3.3 Dimensions in Visualization
- 2.3.4 Steps in Visualization Design
- 2.3.5 The Design Cycle
- 2.3.6 User Analysis
- 2.3.7 User Requirements
- 2.3.8 Task Analysis
- 2.3.9 Task Modeling
- 2.3.10 Designing for and with Users
- 2.4 Evaluation of Visualization Environments
- 2.4.1 Human-Centered Evaluation in Visualization Practice
- 2.4.2 Evaluation Methods
- 2.4.3 Designing Experiments
- 2.4.4 Challenges in Evaluation of Collaborative Visualization Environments
- 2.5 User Studies and a Science of Visualization
- 2.5.1 Survey of Information Visualization Studies
- 2.5.2 The Future of User Studies
- 2.6 Chapter Notes
- 3 Interacting with Visualizations (W. Fikkert, M. D’Ambros, T. Bierz, and T.J. Jankun-Kelly)
- 3.1 Interaction
- 3.1.1 Describing Interaction
- 3.1.2 Defining Interaction
- 3.2 Influences of Display Technologies
- 3.2.1 Survey of Display Technologies
- 3.2.2 Scales of Interaction
- 3.2.3 Display Interaction Modalities and Media
- 3.2.4 Interfaces and Usability for Novel Displays
- 3.2.5 Display Device Challenges in Visualization
- 3.3 Multimodal Interaction
- 3.3.1 Unimodality Versus Multimodality
- 3.3.2 Issues to Deal with in Multimodal Interaction
- 3.3.3 Myths of Multimodality
- 3.3.4 Survey of Enabling Technologies
- 3.3.5 Overview of Approaches to Multimodal Interaction
- 3.3.6 Enabling Multimodal Interaction
- 3.4 Visualizations in Multi-party Environments
- 3.4.1 Collaborating with Visualizations
- 3.4.2 Models for Distributed Collaborative Visualization
- 3.4.3 Evaluation Criteria
- 3.4.4 Survey of Collaborative Visualization Systems
- 3.4.5 Challenges for Multi-party Visualizations
- 3.5 Chapter Notes
- 3.1 Interaction
- 4 Visual Representations (C. Görg, M. Pohl, E. Qeli, and K. Xu)
- 4.1 Perceptual and Cognitive Issues
- 4.1.1 The Visualization Process
- 4.1.2 Types of Data
- 4.1.3 Preattentive Processing
- 4.2 Information Visualization Criteria and Metaphors
- 4.2.1 Information Visualization Criteria
- 4.2.2 Metaphors
- 4.3 Multivariate Visualization Techniques
- 4.3.1 Low-Dimensional Data Visualization
- 4.3.2 Multidimensional Data Visualization
- 4.3.3 Usability Issues on Multidimensional Data Visualization
- 4.4 Graphs and Trees
- 4.4.1 Applications
- 4.4.2 Background
- 4.4.3 Aesthetics vs. Graph Readability
- 4.4.4 Layout vs. Graph Readability
- 4.4.5 Large Graphs
- 4.4.6 Integrated Graph Drawing
- 4.4.7 Labeling of Graphs
- 4.5 Multiple Views
- 4.5.1 Classification
- 4.5.2 The Design of Multiple Views
- 4.5.3 Interaction
- 4.5.4 Comparison with Integrated Views
- 4.6 Chapter Notes
- 4.1 Perceptual and Cognitive Issues
- 5 Challenges and Unsolved Problems (R.S. Laramee, R. Kosara)
- 5.1 Classification of Future Challenges and Unsolved Problems in Human-Centered Visualization
- 5.1.1 Human-Centered Challenges
- 5.1.2 Technical Challenges
- 5.1.3 Financial Challenges
- 5.2 Chapter Notes
- 5.1 Classification of Future Challenges and Unsolved Problems in Human-Centered Visualization
- 6 Geographic Visualization (M. Nöllenburg)
- 6.1 Goals of Geovisualization
- 6.2 Driving Forces of Geovisualization
- 6.3 Cognitive Aspects
- 6.3.1 Visual Thinking
- 6.3.2 Graphic Variables
- 6.4 Visualization Methods and Techniques
- 6.4.1 Geospatial Data
- 6.4.2 2D Cartographic Visualization
- 6.4.3 3D Cartographic Visualization
- 6.4.4 Visual Data Mining Tools
- 6.4.5 Animation
- 6.4.6 Spatio-Temporal Visualization
- 6.4.7 Interactive User Interfaces
- 6.4.8 Combining Visual and Computational Exploration
- 6.5 Geovisualization Tools
- 6.6 Usability of Geovisualization Systems
- 6.6.1 Involving Users in the Design of Geovisualizations
- 6.6.2 Results from User Studies
- 6.6.3 Geovisualization to Support Group Work
- 6.7 Chapter Notes
- 7 Algorithm Animation (A. Moreno)
- 7.1 Overview
- 7.2 Users of Algorithm Animation
- 7.3 Taxonomies for Algorithm Animation Tools
- 7.4 Review of Tools and Their Evaluations
- 7.4.1 Concept Keyboards for Algorithm Visualization
- 7.4.2 Matrix and MatrixPro
- 7.4.3 Alvis and Alvis Live!
- 7.4.4 Alice
- 7.4.5 Jeliot 3/Jeliot 2000
- 7.4.6 JHAVÉ
- 7.4.7 WinHipe
- 7.4.8 User Studies Compilation
- 7.5 Chapter Notes
- 8 Biomedical Information Visualization (M. Lungu, K. Xu)
- 8.1 Phylogenetic Tree Visualization
- 8.1.1 Small Trees – Working in Euclidean Space
- 8.1.2 Large Trees – Using Focus and Context
- 8.1.3 Very Large Trees – Hyperbolic 3D Space
- 8.1.4 Discussion and Further Reading
- 8.2 Sequence Alignment
- 8.2.1 Sequence Logos
- 8.2.2 Editing and Visualizing Sequence Alignment: Jalview
- 8.2.3 Vista: Online Visualization of DNA Alignment
- 8.2.4 Sequence Walkers
- 8.2.5 Dot Plots
- 8.2.6 Arc Diagrams
- 8.2.7 Discussion and Further Reading
- 8.3 Biochemical Network Analysis
- 8.3.1 Cytoscape
- 8.3.2 Biochemical Pathway Analysis
- 8.3.3 Layout for Large Biochemical Networks: LGL
- 8.3.4 Discussion and Further Reading
- 8.4 Microarray Data Visualization
- 8.4.1 TreeView
- 8.4.2 Hierarchical Clustering Explorer
- 8.4.3 Evaluation of Microarray Visualization Tools
- 8.5 Medical Records Visualization
- 8.5.1 LifeLines: Visualizing Patient Temporal Data
- 8.5.2 The Cube: Multidimensional Analysis of Medical Records
- 8.5.3 Visualizing Medical Practice Guidelines and Protocols
- 8.6 Chapter Notes
- 8.1 Phylogenetic Tree Visualization
- Bibliography
- Author Index
- Index
References
[Springer, 2007] Book description page [1]