References

1

Bury, K., Davies, S., and Darnell, M. (1985). Window management: A review of issues and some results from user testing. Technical report, IBM Human factors Center Report HFC-53, San Jose, CA.

2

Card, S. (1982). User perceptual mechanism in the search of computer command menus. In Proc. Human Factors in Computer Systems, pages 190-196, Washington D.C.

3

Caroll, J. (1982). Learning, using and designing command paradigmas. Human Learning, 1(1):31-62.

4

Cleveland, W. and Loader, C. (1996). Smoothing by local regression: Principles and methods. In Härdle, W. and Schimek, M., editors, Statistical Theory and Computational Aspects of Smoothing, pages 10-49. Physika Verlag, Heidelberg, Germany.

5

Cruz-Neira, C., Sandin, D., and DeFanti, T. (1993). Surround-screen projection-based virtual reality: the design and implementation of the cave. In Proc SIGGRAPH'93 Conference, pages 135-142, New York. ACM.

6

Ehrenreich, S. and Porcu, T. (1982). Abbreviations for automated systems: teaching operators and rules. In Badre, A. and Shneiderman, B., editors, Directions in Human-Computer Interaction, pages 111-136. Ablex, Norwood, NJ.

7

Fitts, P. (1954). The information capacity of the human motor system in controlling amplitude of movement. Journal of experimental psychology, 47:381-391.

8

Franzke, M. (1995). Turning research into practice: Characteristcs of display-based interaction. In Proc. CHI'95 Conference: Human Factors in Computing Systems, pages 421-428. ACM.

9

Hansen, W. (1971). User engineering principles for interactive systems. In Proc. Fall Joint Computer Conference, volume 39, pages 523-532, Montvale, NJ. AFIPS Press.

10

Härdle, W. (2004). Interview with James E. Gentle. Computational Statistics, 19(1): 1-4. Physika Verlag, Heidelberg, Germany.

11

Harrison, D. and Rubinfeld, D.L. (1978). Hedonic prices and the demand for clean air. J. Environ. Economics and Management, 5: 81-102.

12

Keller, R. (2003). Visualizing augsburg traffic data with vangogh. Presentation at `Workshop on Statistical Inference, Visualizing for Graphs' at Stanford University, CA., University of Augsburg, Dept. of Computer Oriented Statistics and Data Analysis.

13

Liebelt, L.-S., McDonald, J., Stone, J., and Karat, J. (1982). The effect of organization on learning menu access. In Proc. Human Factors Society, Twenty-Sixth Annual Meeting, pages 546-550, CA.

14

Marron, J. (1996). A personal view of smoothing and statistics. In Härdle, W. and Schimek, M., editors, Statistical Theory and Computational Aspects of Smoothing, pages 1-9. Physika Verlag, Heidelberg, Germany.

15

Martin, G. and Corl, K. (1986). System response time effects on user productivity. Behaviour and Information technology, 5(1):3-13.

16

McDonald, J., Stone, J., and Liebelt, L. (1983). Searching for items in menus: the effects of organization and type of target. In Proc. Human Factors Society, Twenty-Seventh Annual Meeting, pages 834-837, Santa Monica, CA.

17

Miller, G. (1956). The magical number seven, plus or minus two: some limits on our capacity for processing information. Psychologocial science, 63:81-97.

18

Mitchell, J. and Shneiderman, B. (1989). Dynamic vs. static menus: An experimental comparison. ACM SIGCHI Bulletin, 20(4):33-36.

19

Norman, K. and Chin, J. (1988). The effect of tree structure on search in a hierarchical menu selection system. Behaviour and Information Technology, 8(2):25-134.

20

Roemer, J. and Chapanis, A. (1982). Learning performance and attitudes as a function of the reading grade level of a computer-presented tutorial. In Proc. Conference on Human Factors in Computer Systems, pages 239-244, Washington D.C. ACM.

21

Schneider, M. (1984). Ergonomic considerations in the design of text editors. In Vassiliou, Y., editor, Human Factors and Interactive Computer Systems, pages 141-161. Ablex, Norword, NJ.

22

Sears, A. and Shneiderman, B. (1994). Split menus: effectively using selection frequency organize menus. ACM Transaction on Computer-Human Interaction, 1(1):27-51.

23

Shneiderman, B. (1982). System message design: Guidelines and experimental results. In Badre, A. and Shneiderman, B., editors, Directions in Human/Computer Interactions, pages 55-78. Ablex, Norword, NJ.

24

Shneiderman, B. (1998). Designing the User Interface. Addison Wesley Longman, Inc.

25

Staggers, N. (1993). Impact of screen density on clinical nurses' computer task performance and subjective screen statisfaction. International journal of Man-Machine Studies, 39(5):775-792.

26

Temple, Barker and Sloane, Inc. (1990). The benefits of the graphical user interface. Multimedia Review, pages 10-17.

27

Tufte, E. (1983). The Visual Display of Quantitative Information. Graphics Press, Cheshire, CT.

28

Tufte, E. (1990). Envisioning Information. Graphics Press, Cheshire, CT.

29

Tukey, J., Friedman, J., and Fishkeller, M. (1973). Prim-9: An interactive multidimensional data display and analysis system. Video. ASA Statistical Graphics Video Lending Library.

30

Tukey, J., Friedman, J., and Fishkeller, M. (1974). Prim-9: An interactive multidimensional data display and analysis system. Technical Report SLAC-PUB-1408, Stanford Linear Accelerator Center, Stanford, CA.

31

Ulich, E., Rautenberg, M., Moll, T., Greutmann, T., and Strohm, O. (1991). Task orientation and user-oriented dialogue design. International journal of human-computer interaction, 3(2):117-144.

32

Wickens, C. (1992). Engineering psychology and human performance. Harpercollins publisher.