Visualization (graphics): Difference between revisions

'''Visualization''' (or '''visualisation''' (see [[American and British English spelling differences#-ise, -ize (-isation, -ization)|spelling differences'''visualisation''']])), also known as Graphics'''graphics Visualizationvisualization''', is any technique for creating [[image]]s, [[diagram]]s, or [[animation]]s to communicate a message. Visualization through visual imagery has been an effective way to communicate both abstract and concrete ideas since the dawn of humanity. Examples from history include [[cave painting]]s, [[Egyptian hieroglyphs]], Greek [[geometry]], and [[Leonardo da Vinci]]'s revolutionary methods of technical drawing for engineering purposes that actively involve scientific requirements.

The use of visualization to present information is not a new phenomenon. It has been used in maps, scientific drawings, and data plots for over a thousand years. Examples from [[cartography]] include [[Geographia (Ptolemy)|Ptolemy's Geographia]] (2nd century AD), a map of China (1137 AD), and [[Charles Joseph Minard|Minard]]'s map (1861) of [[Napoleon]]'s [[French invasion of Russia|invasion of Russia]] a century and a half ago. Most of the concepts learned in devising these images carry over in a straightforward manner to computer visualization. [[Edward Tufte]] has written three critically acclaimed books that explain many of these principles.<ref>{{cite book |last=Tufte |first=Edward R. |author-link=Edward Tufte |year=1990 |title=Envisioning Information|publisher=Graphics Press |url=https://archive.org/details/envisioninginfor00tuft |url-access=registration |isbn=0961392118}}</ref><ref>{{cite book |last=Tufte |first=Edward R. |author-link=Edward Tufte |edition=2nd |orig-year=1st Pub. 1983 |year=2001 |title=The Visual Display of Quantitative Information |publisher=Graphics Press |isbn=0961392142 |url=https://archive.org/details/visualdisplayofq00tuft }}</ref><ref>{{cite book |last=Tufte |first=Edward R. |author-link=Edward Tufte |year=1997 |title=Visual Explanations: Images and Quantities, Evidence and Narrative |publisher=Graphics Press |isbn=0961392126 |url=https://archive.org/details/visualexplanatio00tuft }}</ref>

Computer graphics has from its beginning been used to study scientific problems. However, in its early days the lack of graphics power often limited its usefulness. The recent emphasis on visualization started in 1987 with the publication of Visualization in Scientific Computing, a special issue of Computer Graphics.<ref>{{cite web|url=http://www.evl.uic.edu/core.php?mod=4&type=3&indi=348|title=evl – electronic visualization laboratory|website=www.evl.uic.edu|access-date=2 September 2018|archive-date=30 April 2020|archive-url=https://web.archive.org/web/20200430224223/https://www.evl.uic.edu/core.php?mod=4&type=3&indi=348|url-status=dead}}</ref> Since then, there have been several conferences and workshops, co-sponsored by the [[IEEE Computer Society]] and [[ACM SIGGRAPH]], devoted to the general topic, and special areas in the field, for example volume visualization.

[[Scientific visualization]] is the transformation, selection, or representation of data from simulations or experiments, with an implicit or explicit geometric structure, to allow the exploration, analysis, and understanding of the data. Scientific visualization focuses and emphasizes the representation of higher order data using primarily graphics and animation techniques.<ref>"Scientific Visualization." sciencedaily.com. Science Daily, 2010. Retrieved from web [https://www.sciencedaily.com/articles/s/scientific_visualization.htm https://www.sciencedaily.com/articles/s/scientific_visualization.htm] {{Webarchive|url=https://web.archive.org/web/20150423174848/https://www.sciencedaily.com/articles/s/scientific_visualization.htm |date=23 April 2015 }}. on 17 November 2011.</ref><ref>"Scientific Visualization." Scientific Computing and Imaging Institute. Scientific Computing and Imaging Institute, University of Utah, n.d. Retrieved from web [http://www.sci.utah.edu/research/visualization.html http://www.sci.utah.edu/research/visualization.html] {{Webarchive|url=https://web.archive.org/web/20191004210316/http://www.sci.utah.edu/research/visualization.html |date=4 October 2019 }}. on 17 November 2011.</ref> It is a very important part of visualization and maybe the first one, as the visualization of experiments and phenomena is as old as [[science]] itself. Traditional areas of scientific visualization are [[flow visualization]], [[medical visualization]], [[astrophysical visualization]], and [[molecular graphics|chemical visualization]]. There are several different techniques to visualize scientific data, with [[isosurface|isosurface reconstruction]] and [[volume rendering|direct volume rendering]] being the more common.

Information visualization concentrates on the use of computer-supported tools to explore large amount of abstract data. The term "information visualization" was originally coined by the User Interface Research Group at Xerox PARC and included [[Jock D. Mackinlay|Jock Mackinlay]].{{Citation needed|date=January 2013}} Practical application of information visualization in computer programs involves selecting, [[data transformation|transforming]], and representing abstract data in a form that facilitates human interaction for exploration and understanding. Important aspects of information visualization are dynamics of visual representation and the interactivity. Strong techniques enable the user to modify the visualization in real-time, thus affording unparalleled perception of patterns and structural relations in the abstract data in question.

The use of visual representations to transfer knowledge between at least two persons aims to improve the transfer of [[knowledge]] by using [[computer]] and non-computer-based visualization methods complementarily.<ref>(Burkhard and Meier, 2004),</ref> Thus properly designed visualization is an important part of not only data analysis but knowledge transfer process, too.<ref>{{Cite journal|last=Opiła|first=Janusz|date=1 April 2019|title=Role of Visualization in a Knowledge Transfer Process|journal=Business Systems Research Journal|volume=10|issue=1|pages=164–179|doi=10.2478/bsrj-2019-0012|issn=1847-9375|doi-access=free}}</ref> Knowledge transfer may be significantly improved using hybrid designs as it enhances information density but may decrease clarity as well. For example, visualization of a 3D [[scalar field]] may be implemented using iso-surfaces for field distribution and textures for the gradient of the field.<ref>{{Cite book|last1=Opila|first1=J.|last2=Opila|first2=G.|title=2018 41st International Convention on Information and Communication Technology, Electronics and Microelectronics (MIPRO) |chapter=Visualization of computable scalar 3D field using cubic interpolation or kernel density estimation function |date=May 2018|___location=Opatija|publisher=IEEE|pages=0189–0194|doi=10.23919/MIPRO.2018.8400036|isbn=9789532330953|s2cid=49640048}}</ref> Examples of such visual formats are [[sketch (drawing)|sketch]]es, [[diagram]]s, [[image]]s, objects, interactive visualizations, information visualization applications, and imaginary visualizations as in [[narrative|stories]]. While information visualization concentrates on the use of computer-supported tools to derive new insights, knowledge visualization focuses on transferring insights and creating new [[knowledge]] in [[group (sociology)|groups]]. Beyond the mere transfer of [[fact]]s, knowledge visualization aims to further transfer [[insight]]s, [[experience]]s, [[attitude (psychology)|attitude]]s, [[value (personal and cultural)|value]]s, [[expectation (epistemic)|expectation]]s, [[perspective (cognitive)|perspective]]s, [[opinion]]s, and [[predictionestimate]]s in different fields by using various complementary visualizations.

*[http://www.visual-literacy.org/index.html Visual-literacy.org] {{Webarchive|url=https://web.archive.org/web/20191022155301/http://www.visual-literacy.org/index.html |date=22 October 2019 }}, (e.g. [http://www.visual-literacy.org/periodic_table/periodic_table.html Periodic Table of Visualization Methods])

* Amer. Soc. of Information Science and Technology (ASIS&T SIGVIS) [http://www.asis.org/SIG/SIGVIS/index.htm Special Interest Group in Visualization Information and Sound] {{Webarchive|url=https://web.archive.org/web/20081202145828/http://www.asis.org/SIG/SIGVIS/index.htm |date=2 December 2008 }}