Abstract
A systematic method is presented that describes comprehensively the very broad design space of visualizations and the interrelationships between their constituents. The framework offered here includes three representational modes and fifteen visual encodings principles as the proposed universal building blocks of all types of diagrams and information graphics. The framework provides: 1. A vocabulary and a method for thoroughly analyzing the full spectrum of visual representations of information. 2. A mechanism for exploring previously unexploited combinations of visual encoding principles for representing information. 3. A potential tool for creating alternative representations for any given visualization or data set.
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Notes
- 1.
Our framework applies to any ‘visual representations (of information)’, ‘diagrams and (information) graphics’ or ‘visualizations’ – terms which are used interchangeably here.
References
Bertin, J.: Semiology of Graphics: Diagrams, Networks, Maps. University of Wisconsin Press, Madison (1967/1983). (original: Sémiologie graphique. Gauthier-Villars)
Bertin, J.: Graphics and Graphic Information Processing. Walter de Gruyter & Co, Berlin (1977/1981). (original: Le graphique et le traitement graphique de l’information. Flammarion.)
Blackwell, A., Engelhardt, Y.: A meta-taxonomy for diagram research. In: Anderson, M., Meyer, B., Olivier, P. (eds.) Diagrammatic Representation and Reasoning, pp. 47–64. Springer, London (2002). https://doi.org/10.1007/978-1-4471-0109-3_3
Card, S.K., Mackinlay, J.: The structure of the information visualization design space. In: Proceedings of the 1997 IEEE Symposium on Information Visualization (InfoVis 1997), pp. 92–99. IEEE Computer Society, Washington, DC (1997)
Engelhardt, Y.: The language of graphics. Ph.D. thesis, University of Amsterdam (2002)
Johnson, M.: The Body in the Mind. University of Chicago Press, Chicago (1987)
Lakoff, G.: Women, Fire, and Dangerous Things. The University of Chicago Press, Chicago (1987)
Maxwell, J.C.: Diagrams. In: Encyclopaedia Britannica, 11th edn. (1910)
Peirce, C.S.: The Collected Papers of Charles Sanders Peirce, 4.418. Harvard University Press, Cambridge (1903/1933)
Richards, C.J.: Diagrammatics. Ph.D. thesis, Royal College of Art, London (1984)
Richards, C.J., Engelhardt, Y.: Diagrammatics: the fundamental modes and building blocks of visual representations. In: Richards, C.J. (ed.) Elements of Diagramming: Theoretical Frameworks, Design Methods, Domains of Practice. Routledge, London (forthcoming)
Russell, B.: Vagueness. Australas. J. Psychol. Philos. 1, 84–92 (1923)
Tversky, B.: Cognitive origins of graphic productions. In: Marchese, F.T. (ed.) Understanding images, pp. 29–53. Springer, New York (1995)
Twyman, M.: A schema for the study of graphic language. In: Kolers, P.A., Wrolstad, M.E., Bouma, H. (eds.) Processing of Visible Language, vol. 1, pp. 117–150. Plenum Press, New York (1979)
Ware, C.: Visual Thinking for Design. Morgan Kaufmann Publishers, San Francisco (2008)
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Engelhardt, Y., Richards, C. (2018). A Framework for Analyzing and Designing Diagrams and Graphics. In: Chapman, P., Stapleton, G., Moktefi, A., Perez-Kriz, S., Bellucci, F. (eds) Diagrammatic Representation and Inference. Diagrams 2018. Lecture Notes in Computer Science(), vol 10871. Springer, Cham. https://doi.org/10.1007/978-3-319-91376-6_20
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