Chernoff face

This example shows Chernoff faces for lawyers' ratings of twelve judges

Chernoff faces, invented by Herman Chernoff, display multivariate data in the shape of a human face. The individual parts, such as eyes, ears, mouth and nose represent values of the variables by their shape, size, placement and orientation. The idea behind using faces is that humans easily recognize faces and notice small changes without difficulty. Chernoff faces handle each variable differently. Because the features of the faces vary in perceived importance, the way in which variables are mapped to the features should be carefully chosen (eye size and eyebrow-slant have been found important)^[1]

Asymmetry

In 1981, Bernhard Flury and Hans Riedwyl suggested 'asymmetrical' Chernoff faces; since a face has vertical symmetry (around the y-axis), the left side of the face is identical to the right and is basically wasted space. One could have the 18 variables that specify the left be one set of data, but use a different set of data for the right side of the face (allowing one face to depict 36 different datapoints.) They present results showing that such asymmetrical faces are useful in visualizing databases of identical twins, for example, and are useful in grouping as pairs of Chernoff faces would be.

References

1. ^ "An Experimental Analysis of the Pre-Attentiveness of Features in Chernoff Faces", Morris CJ, Ebert DS, Rheingans P. 1999; published by the conference "Applied Imagery Pattern Recognition: 3D Visualization for Data Exploration and Decision Making". http://www.research.ibm.com/people/c/cjmorris/publications/Chernoff_990402.pdf

• Herman Chernoff (1973). "The Use of Faces to Represent Points in K-Dimensional Space Graphically". Journal of the American Statistical Association (American Statistical Association) 68 (342): 361–368. doi:10.2307/2284077. JSTOR 2284077. 
• Bernhard Flury and Hans Riedwyl (December 1981). "Graphical Representation of Multivariate Data by Means of Asymmetrical Faces". Journal of the American Statistical Association (American Statistical Association) 76 (376): 757–765. doi:10.2307/2287565. JSTOR 2287565. 

Further reading

• "Facial Representation of Multivariate Data", David L. Huff, Vijay Mahajan and William C. Black. The Journal of Marketing, Vol. 45, No. 4 (Autumn, 1981), pp. 53–59.Published by: American Marketing Association
• "FACES-A FORTRAN Program for Generating Chernoff-Type Faces on a Line Printer", Danny W. Turner and F. Eugene Tidmore. The American Statistician, Vol. 34, No. 3 (Aug., 1980), p. 187 Published by: American Statistical Association
• "Visual Techniques for Representing Multivariate Data", B. S. Everitt and P. Nicholls. The Statistician, Vol. 24, No. 1 (Mar., 1975), pp. 37–49. Published by Blackwell Publishing for the Royal Statistical Society
• "Representing Points in Many Dimensions by Trees and Castles", B. Kleiner and J. A. Hartigan. Journal of the American Statistical Association, Vol. 76, No. 374 (Jun., 1981), pp. 260–269. Published by the American Statistical Association
• Gonick, L. and Smith, W. The Cartoon Guide to Statistics. New York: Harper Perennial, p. 212, 1993.
• Moriarity, S. (1979). "Communicating financial information through multidimensional graphics". Journal of Accounting Research 17, 205-224.
• Stock, D. and Watson, C. (1984). "Human judgment accuracy, multidimensional graphics, and humans versus models". Journal of Accounting Research 22, 192-206.
• Information Visualization: Perception for Design (2004), Ware C.
• "The Empathic Visualisation Algorithm: Chernoff Faces Revisited" (218)[1]
• "An empirical evaluation of Chernoff faces, star glyphs, and spatial visualizations for binary data", Michael D. Lee, Rachel E. Reilly, Marcus E. Butavicius. ACM International Conference Proceeding Series; Vol. 142, Proceedings of the Asia-Pacific symposium on Information visualisation - Volume 24 [2]

External links

• "Professor Puts a Face on the Performance of Baseball Managers" -(New York Times; Chernoff faces generated from manager performance data)
• "A Critique of Chernoff Faces"
• Java visualization
• Example of urban living conditions in LA
• Example and code for the R statistical software environment
• "Mapping Quality of Life with Chernoff Faces", Joseph G. Spinelli and Yu Zhou
• "SUGI 26: Escaping Flatland: Chernoff's Faces Revisited" -(modifying FACES for more aesthetic output)
• "What's the Matter With Chernoff Faces?" -(illustrates 2005 baseball statistics; also proposes and demonstrates 'Reisner faces' which distort a photo of a face rather than generating one)
• "Faces 2.0" -(a Mac OS X screensaver which generates random Chernoff faces)
• NovoSpark Visualizer - an advanced visualization tool that enables qualitative analysis of multidimensional data through the exploration of a graphical image.