Geography Reference
In-Depth Information
Lasseter, J. (1987) Principles of traditional animation applied to three-dimensional computer
animation.
ACM Computer Graphics
21(4): 35-44.
Liu, J. and Qi, F. (2003)
Alcohol-related incidents at UW - Madison
. Student class project. Available
at: http://www.geography.wisc.edu/
harrower/Geog575/finalProjects03/drinking.swf
Lowe, R. K. (1999) Extracting information from an animation during complex visual learning.
European Journal of Psychology of Education
14(2): 225-244.
Lowe, R. K. (2003) Animation and learning: Selective processing of information in dynamic
graphics.
Learning and Instruction
13: 157-176.
Lowe, R. K. (2004a). User-controllable animated diagrams: the solution for learning dynamic
content. In
Diagrams 2004: Diagrammatic Representation and Inference
,
Lecture Notes in Arti-
ficial Intelligence 2980
, Shimojima, A. (ed.). Berlin, Springer, pp. 355-359.
Lowe, R. K. (2004b) Interrogation of a dynamic visualization during learning.
Learning and
Instruction
14: 257-274.
Maass, S., Jobst, M. and Dollner, J. (2007) Depth cue of occlusion information as criterion for the
quality of annotation placement in perspective views. In:
The European Information Society:
Leading the Way with Geo-information
, Fabrikant, S. I. and Wachowicz, M. (eds). Lecture
Notes in Geoinformation and Cartography. Berlin, Springer, pp. 473-486.
MacEachren, A. M. (1994) Time as a cartographic variable. In
Visualization in Geographic Infor-
mation Systems
, Hearnshaw, H. and Unwin, D. (eds). New York, Wiley, pp. 115-129.
MacEachren, A. M. (1995)
How Maps Work: Representation
,
Visualization and Design
.NewYork,
Guilford Press.
MacEachren, A. M. and Kraak, M.-J. (2001) Research challenges in geovisualization.
Cartography
and Geographic Information Science
28(1): 1-11.
MacEachren, A. M., Boscoe, F. P., Haug, D. and Pickle, L. W. (1998) Geographic visualiza-
tion: designing manipulable maps for exploring temporally varying georeferenced statistics.
Proceedings of the IEEE Information Visualization Symposium
, Research Triangle Park, NC,
19-20 October, pp. 87-94.
Marr, D. (1982)
Vision: a Computational Investigation into the Human Representation and Pro-
cessing of Visual Information
. San Francisco, CA, W. H. Freeman.
Miller, G. A. (1956) The magical number seven, plus or minus two: some limit on our capacity
for processing information.
Psychological Review
63: 81-97.
Moellering, H. M. (1976) The potential uses of a computer animated film in the analysis of
geographic patterns of traffic crashes.
Accident Analysis and Prevention
8(4): 215-227.
Moellering, H. (1980) The real-time animation of three-dimensional maps.
The American
Cartographer
7(1): 67-75.
Monmonier, M. (1994) Minimum-change categories for dynamic temporal choropleth maps.
Journal of the Pennsylvania Academy of Science
68(1): 42-47.
Monmonier, M. (1996) Temporal generalization for dynamic maps.
Cartography and Geographic
Information Systems
23(2): 96-98.
Morrison, J. B., Tversky, B. and Betrancourt, M. (2000) Animation: does it facilitate learning?
Proceedings of the Smart Graphics 2000: AAAI Spring Symposium
, Stanford, CA.
NASA/Goddard Space Flight Center Scientific Visualization Studio (2006)
MODIS Sea Surface
Temperature
∼
Highlighting
the
Gulf
Stream
(2002
to
2006)
;
http://svs.gsfc.nasa.gov/vis/
a000000/a003300/a003389/index.html
Ogao, P. J. (2002) Exploratory Visualization of Temporal Geospatial Data Using Animation.
Unpublished Ph.D. Dissertation. University of Utrecht, Department of Geography, Utrecht.
Ogao, P. J. and Kraak, M.-J. (2002) Defining visualization operations for temporal cartographic
animation design.
International Journal of Applied Earth Observation and Geoinformation
4(1): 23-31.
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