STS literature on images and visualisation

Powerpoints

Benissa, A. (2014).

The art and science of image making: Technoscientific imaginaries and their normative implications.

Books and articles

Baecker, R. (1998). Sorting out sorting: A case study of software visualization for teaching computer science. Software Visualization: Programming as a Multimedia Experience, 369-381.

Bell, K. (2005). Thirteen Ways of Looking at Images: The Logic of Visualization in Literature and Society (review). University of Toronto Quarterly 74(1), 336-338.

Berg, M., & Marttila, T., & Kaipainen, M., & Kojo, I. (2005). Exploring Political Agendas with Advanced Visualizations and Interface Tools. E-Service Journal 4(2), 47-63.

Berg, M. (1997) Of forms, containers, and the electronic medical record: some tools for a sociology of the formal. Science, Technology, and Human Values, 22, 403-433.

Bermudez, J., & Agutter, J., & Foresti, S., & Westenskow, D., & Syroid, N., & Drews, F., Tashjian, E. (2003). Between Art, Science and Technology: Data Representation Architecture. Leonardo 38(4), 280-285, and 296-297.

Bertin, J. (1984). Semiology of Graphics: Diagrams. WI: The University of Wisconsin Press.

Bowker, G. C. (2000). Mapping biodiversity. International Journal of Geographical Information Science, 14(8), 739-754.

Bruhn, M. (2003). Visualization Services. Stock Photography and the Picture Industry In: Genre: Forms of Discourse and Culture, 36, Nr. ¾, 365-381.

Bryson, S. (1996). Virtual reality in scientific visualization. Communications of the ACM 39(5), 62-71.

Burke, C. (2009). “Isotype Revisited” http://www.isotyperevisited.org/2009/12/isotype-representing-social-facts-pictorially.html

Cohn, S. (2004). Increasing resolution, intensifying ambiguity: an ethnographic account of seeing life in brain scans, Economy and Society, 33:1, 52-76

Coopmans, C. (2011). “Face value”: New medical imaging software in commercial view. Social Studies of Science, 41(2), 155-176. Not sure this goes here.

Corby, T. (2002). Landscapes of Feeling, Arenas of Action: Information Visualization as Art Practice. Leonardo 41(5), 460-467.

Couchot, E. (1988). Comments on “Procedural Art with Computer Graphics Technology.” Leonardo 21 (3), 339.

Da Costa, Beatriz and Kavita Philip (2008) Tactical Biopolitics: Art, Activism, and Technoscience (Cambridge, Mass.: MIT Press).

Danahy, J. W. (2001). Technology for dynamic viewing and peripheral vision in landscape visualization. Landscape and Urban Planning 54(1-4), 127-138.

Darvas, G., & Farkas, T.F. (2006). An Artist’s Works through the Eyes of a Physicist: Graphic Illustration of Particle Symmetries. Leonardo 39(1), 51-57.

Daston, Lorraine and Peter Galison (1992) ‘The Image of Objectivity’, Representations 40: 81-128.

DeFanti, T. A., & Brown, M.D. (1989). Visualization: expanding scientific and engineering research opportunities. Computers 22(8), 12-16 and 22-25.

Dupre, S. (2008). Newton's Telescope in Print: The Role of Images in the Reception of Newton's Instrument. Perspectives on Science 16(4), 328-359.

Elkins, J. (1995). Logic and Images in Art History. The Art Bulletin 77(4), 553-571.

Fictorie, C.P. (2004). HYLE International Journal for Philosophy of Chemistry. Special Issue: Aesthetics and Visualization in Chemistry. J. Chem. Educ. 81 (7), 955.

Fishwick, P., & Diehli, S., & Prophet, J., & Lowgren, J. (2005). Perspectives on Aesthetic Computing. Leonardo 38(2): 133-141.

Francis, B., & Fuller, M. (1996). Visualization of Event Histories. Journal of the Royal Statistical Society 159 (2), 301-308.

Francoeur, E. (2002). Cyrus Levinthal, the Kluge and the Origins of Interactive Molecular Graphics. Endeavour 26 (4), 127-131.

Fyfe, G. and Law, J. (1988). Picturing Power: Visual Depiction and Social Relations. London: Routledge.

Gaviria, A. R. (2008). When is Information Visualization Art?: Determining the Critical Criteria. Leonardo 41(5), 479-482.

Gilbert, J. (2005). Visualization: A metacognitive skill in science and science education. Models and Modeling in Science Education 1, 9-27.

Gladwell, M. (2004). The Picture Problem. New York: The New Yorker.

Godden, K. A. (2003). Cartoon Criminals: The Unclear Future Of Computer Animation In The Minnesota Criminal Courtroom - State V. Stewart. William Mitchell Law Review 1, 355-378.

Goodwin, C. (1995). Seeing in Depth. Social Studies of Science, 25(2), 237-274. Similar to the above.

Hacking, Ian (1983) “Microscopes” in Representing and Intervening: Introductory Topics in the Philosophy of Natural Science (Cambridge: Cambridge University Press): 186-209.

Harvey, F. (2000). The social construction of geographical information systems. International Journal of Geographical Information Science, 14(8), 711-713. If someone is interested in GIS and geo-location, there are more recent explorations.

Hines, L.M. (2003). Review of Computers, Visualizations, and History: How New Technology Will Transform Our Understanding of the Past. History of Education Quarterly 43 (3), 478-479.

Jaeger, S. (2009). Visualizations of the Bombing of Dresden: The Efforts of German Television to Capture History. A Journal of Germanic Studies 45(4), 407-420.

Johnson, C. (2004). Top scientific visualization research problems. Computer Graphics and Applications, IEEE 24(4), 13-17.

Jones, C. A., & Galison, P. (1998). Picturing Science Producing Art. New York: Routledge.

Kassirer, J. P. (1992). "Images in Clinical Medicine." The New England Journal of Medicine 326 (12), 829-830.

Keim, D. A. (2002). Information visualization and visual data mining 8(1), 1-8.

Latour, Bruno (1990) ‘Drawing Things Together’, in Lynch, Michael and Steve Woolgar (eds), Representation in Scientific Practice (Cambridge, Mass.: MIT Press): 19-68.

Latour, B. (1986). Visualization and cognition: Thinking with eyes and hands. Knowledge and Society: Studies in the Sociology of Culture Past and Present,6, 1-40.

Leuenberger, C., & Schnell, I. (2010). The politics of maps: Constructing national territories in Israel. Social Studies of Science, 40(6), 803-842. Critical cartography. Have to look at.

Lynch, M. (1990). The Externalised Retina: Selection and Mathematization in the Visual Documentation of Objects in the Life Sciences. Representation in Scientific Practice. Cambridge, MA: MIT Press.

Lynch, M., & Woolgar, S. (1990). Representation in scientific practice. Cambridge, MA: MIT Press.

Lynch, M. (1985). Discipline and the Material Form of Images: An Analysis of Scientific Visibility. Social Studies of Science, 15(1), 37-66.

Malina, R. F. (1989). Computer Art in the Context of the Journal “Leonardo.” Leonardo. Supplemental Issue, 2, 67-70.

Maynard, P. (2000). The Engine of Visualization: Thinking Through Photography. New York: Cornell University Press.

McCormick, B. H. (1988). Visualization in scientific computing. ACM SIGBIO 10(1), 15-21.

McPherson, T. (2009). Introduction: Media Studies and the Digital Humanities. Cinema Journal 48(2), 119-123.

Markschies, C., Reichle, I., Brüning, J., and Deuflhard, P. (eds.) (2011). Atlas der Weltbilder. Berlin: Berlin Brandenburgische Akademie der Wissenschaften.

Merritt, R. K. (2001). From Memory Arts to the New Code Paradigm: The Artist as Engineer of Virtual Information Space and Virtual Experience. Leonardo 34(5), 403-408.

Naps, T. L. (2002). Exploring the role of visualization and engagement in computer science education. Proceeding, 131-152.

Nielson, G.M., & Hagen, H. (1997). Scientific Visualization: overviews, methodologies, and techniques. Los Angeles: IEEE Computer Society.

Regula Valérie Burri and Joseph Dumit, “Social Studies of Scientific Imaging and Visualization,” in Hackett, Edward J., Olga Amsterdamska, Michael Lynch and Judy Wajcman (eds) (2007) The Handbook of Science and Technology Studies, Third Edition (Cambridge, M.A.: MIT Press): 297-318.

Reichle, I. (2005). Au confluent de l'art et de la science: le génie génétique en art contemporain In: Ernestine Daubner, Louise Poissant (Hg.): Art et Biotechnologies. Presses de l'Université du Québec, Québec, 247-261.

Reichle, I. (2006). The Art of DNA. In: Dawn Leach, Slavko Kacunko (eds): Image-Problem? Medienkunst und Performance im Kontext der Bilddiskussion, Logos Verlag Berlin 2006, 155-166.

Reichle, I. (2007). The Art of Making Science. In: Herwig Turk, Paolo Pereira (Hg.): blindspot, 14-19.

Reichle, I. (2009). Art in the Age of Technoscience. Genetic Engineering, Robotics, and Artificial Life in Contemporary Art. Springer, New York.

Reichle, I., Baleva, M., Lerone Schultz, O. (eds.) (2010). IMAGE MATCH. Visueller Transfer, „Imagescapes“ und Intervisualitaet in globalen Bild-Kulturen Wilhelm Fink Verlag, München 2011.

Reichle, I. (2011). Synthetische Biologie und Kunst. Die Technisierung des Lebendigen und die Verlebendigung der Kunst. Ingeborg Reichle im Gespräch mit Hans-Jörg Rheinberger und Jens Hauser. In: Akademiemagazin 2011/2012, 40-45.

Rose, G. (2013). On the relation between 'visual research methods' and contemporary visual culture. Sociological Review 62(1), 24-46.

Schroth, O., & Hayek, U.W., & Lange, E., Sheppard, S. R. J., Schmid, W. A. (2011). Multiple-Case Study of Landscape Visualizations as a Tool in Transdisciplinary Planning Workshops. Landscape Journal 30(1), 53-71.

Silva, C., & Chiang, Y.J., & El-Sana, J. (2002). Out-of-core algorithms for scientific visualization and computer graphics. IEEE Visualization.

Sommerlund J. (2004). Beauty and Bacteria: Visualizations in Molecular Microbial Ecology. Configurations 12(3), 375-400.

Staley D.J. (2002). Computers, Visualizations, and History: How New Technology Will Transform Our Understanding of the Past. New York: M. E. Sharpe, Inc.

Steinman, D.A.H., & Steinman, D. A. (2007). The Art and Science of Visualizing Simulated Blood-Flow Dynamics. Leonardo 40(1), 71-76.

Swedlow, J.R., & Goldberg, I. Brauner, E. (2003). Informatics and quantitative analysis. Science 300 (5616), 100-102.

Treichler, P., & Cartwright, L., & Penley, C. (1998). The Visible Woman: Imaging Technologies. Gender and Science. New York: New York University Press.

Tufte, E. R. (1997). Visual and Statistical Thinking: Displays of Evidence for Decision Making. Cheshire, CT: Graphics Press.

Upson, C., & Faulhaber, T.A., Jr., & Kamins, D., & Laidlaw, D., & Schlegel, D., & Vroom, J., & Gurwitz, R., & van Dam, A. (1989). The application visualization system: A computational environment for scientific visualization. Computer Graphics and Applications, IEEE 9(4), 30-42.

Vassileva J. (2007). Using Community Visualization to Stimulate Participation in Online Communities. E-Service Journal 6(1), 3-39.