=LDR 05821nam 2200781 i 4500 =001 7154573 =003 IEEE =005 20150725142309.0 =006 m\\\\eo\\d\\\\\\\\ =007 cr\cn\|||m|||a =008 150725s2015\\\\caua\\\foab\\\000\0\eng\d =020 \\$a9781627057745$qebook =020 \\$z9781627057936$qePub =020 \\$z9781627057738$qpaperback =024 7\$a10.2200/S00651ED1V01Y201506VIS003$2doi =035 \\$a(CaBNVSL)swl00405301 =035 \\$a(OCoLC)914432143 =040 \\$aCaBNVSL$beng$erda$cCaBNVSL$dCaBNVSL =050 \4$aQA76.9.I52$bT655 2015 =082 04$a001.4226$223 =100 1\$aTominski, Christian.,$eauthor. =245 10$aInteraction for visualization /$cChristian Tominski. =264 \1$aSan Rafael, California (1537 Fourth Street, San Rafael, CA 94901 USA) :$bMorgan & Claypool,$c2015. =300 \\$a1 PDF (ix, 97 pages) :$billustrations. =336 \\$atext$2rdacontent =337 \\$aelectronic$2isbdmedia =338 \\$aonline resource$2rdacarrier =490 1\$aSynthesis lectures on visualization,$x2159-5178 ;$v# 3 =500 \\$aPart of: Synthesis digital library of engineering and computer science. =504 \\$aIncludes bibliographical references (pages 75-95). =505 0\$a1. Introduction -- 1.1 Why focus on interaction? -- 1.2 An interaction-oriented view -- 1.3 Outline -- =505 8\$a2. Fundamentals -- 2.1 Visualization -- 2.2 Human-computer interaction -- 2.3 Interaction in visualization -- 2.4 The visualization-interaction gap -- 2.5 Interaction, useful or harmful? -- 2.6 Implementing interactive visualization -- 2.7 Summarizing thoughts -- =505 8\$a3. Aspects of interaction in visualization -- 3.1 The data -- 3.2 The tasks -- 3.3 The technology -- 3.4 The human -- 3.5 The implementation -- =505 8\$a4. Methods and techniques for interactive visualization -- 4.1 An architecture for efficient interactive visualization -- 4.2 Data characteristics and interaction -- 4.2.1 Interacting with graphs -- 4.2.2 Interacting with spatio-temporal movement trajectories -- 4.3 Task-specific interaction techniques -- 4.3.1 Interaction for comparison tasks -- 4.3.2 Interaction support for editing tasks -- 4.4 Utilizing modern technology for interaction -- 4.4.1 Tangible views for interaction and visualization -- 4.4.2 Proxemic interaction for wall-sized visualization -- 4.5 Supporting human interaction with automatic methods -- 4.5.1 Reducing interaction with event-based concepts -- 4.5.2 Navigation recommendations for informed interaction -- 4.6 Summarizing remarks -- =505 8\$a5. Conclusion and future work -- 5.1 Concluding remarks -- 5.2 Topics for future work -- Bibliography -- Author's biography. =506 \\$aAbstract freely available; full-text restricted to subscribers or individual document purchasers. =510 0\$aCompendex =510 0\$aINSPEC =510 0\$aGoogle scholar =510 0\$aGoogle book search =520 3\$aVisualization has become a valuable means for data exploration and analysis. Interactive visualization combines expressive graphical representations and effective user interaction. Although interaction is an important component of visualization approaches, much of the visualization literature tends to pay more attention to the graphical representation than to interaction. The goal of this work is to strengthen the interaction side of visualization. Based on a brief review of general aspects of interaction, we develop an interaction-oriented view on visualization. This view comprises five key aspects: the data, the tasks, the technology, the human, as well as the implementation. Picking up these aspects individually, we elaborate several interaction methods for visualization. We introduce a multi-threading architecture for efficient interactive exploration. We present interaction techniques for different types of data (e.g., multivariate data, spatio-temporal data, graphs) and different visualization tasks (e.g., exploratory navigation, visual comparison, visual editing). With respect to technology, we illustrate approaches that utilize modern interaction modalities (e.g., touch, tangibles, proxemics) as well as classic ones. While the human is important throughout this work, we also consider automatic methods to assist the interactive part. In addition to solutions for individual problems, a major contribution of this work is the overarching view of interaction in visualization as a whole. This includes a critical discussion of interaction, the identification of links between the key aspects of interaction, and the formulation of research topics for future work with a focus on interaction. =530 \\$aAlso available in print. =538 \\$aMode of access: World Wide Web. =538 \\$aSystem requirements: Adobe Acrobat Reader. =588 \\$aTitle from PDF title page (viewed on July 25, 2015). =650 \0$aInformation visualization. =650 \0$aInformation display systems. =650 \0$aDatabase design. =650 \0$aHuman-computer interaction. =653 \\$aVisualization =653 \\$ainteraction =653 \\$azoomable user interfaces =653 \\$ainteractive lenses =653 \\$atouch interaction =653 \\$atangible interaction =653 \\$aproxemic interaction =653 \\$aselection =653 \\$anavigation =653 \\$aexploration =653 \\$avisual comparison =653 \\$avisual editing =653 \\$alarge displays =653 \\$aautomatic methods =653 \\$anavigation recommendations =776 08$iPrint version:$z9781627057738 =830 \0$aSynthesis digital library of engineering and computer science. =830 \0$aSynthesis lectures on visualization ;$v# 3.$x2159-5178 =856 42$3Abstract with links to resource$uhttps://ieeexplore.ieee.org/servlet/opac?bknumber=7154573"