List of Figures

1. Classification of Point types.
2. Classification of temporal sampling schemes.
3. The three interrelated aspects of time.
4. Effect of shape of the study area on the expected average nearest neighbor distance.
5. Basic form of a temporal data frame.
6. Methods of how to change a temporal data frame.
7. Illustration of temporal data frames.
8. Changes of the sunrise and the beginning of the civil twilight during the year.
9. Changes in the duration of the twilight during the year.
10. Implementation example of scrollbars as one method to define the parameters for a TDF.
11. Implementation example of a graphical selection method for cyclic temporal aspects.
12. Multiple time aspects as an example in the application of TDFs.
13. Radio locations of one badger in the Sihlwald in September 1996.
14. 3-D plot of an ant walking on a petri dish.
15. Classification of the Time-Plot Family.
16. Artificial movement patterns used for demonstration purposes.
17. T-x plot and T-y plot for the artificial movement pattern walking along a line.
18. T-r(rotation) plot for the artificial movement pattern walking along a line.
19. T-$\nu$ plot for the artificial movement pattern walking along a line.
20. T-$\sigma$ plot for the artificial movement pattern walking along a line.
21. Example TT-$\delta$ plot construction.
22. Example TT-$\delta$ plot from the artificial data 'walking on a line'.
23. Basic features found in a TT-plot.
24. Transect for the example TT-$\delta$ plot.
25. Example TT-$\delta$ plots from artificial data.
26. Creation of a TT-$\pi$ plot. The colors indicate the parallelity relative to P1.
27. Example TT-$\pi$ plots from artificial data.
28. Example 1 for a superimposed TT-plot from artificial data.
29. Example 2 for a superimposed TT-plot from artificial data.
30. Creation of a TT2-$\delta$ plot.
31. Example TT2-$\delta$ and TT2-$\pi$ plots from artificial data.
32. Overview of the Woodstork data from Florida and Georgia.
33. T-x and T-y plots for the woodstork data.
34. Instrumental setup for the data collection of the ant.
35. T-y plot for the ant in phase 1.
36. T-$\nu$ plot for the ant in phase 1.
37. T-$\sigma$ plot for the ant in in the middle of the observation period in phase 1.
38. TT-$\delta$ plot for the ant in the petri dish phase 1 (undisturbed). Short distances are indicated in blue, medium ones in green and large distances have a yellow to red color.
39. TT-$\delta$ plot for the ant in the petri dish phase 2 (undisturbed).
40. TT-$\delta$ plot for the ant in the petri dish phase 3 (rubber cannula).
41. TT-$\delta$ plot for the ant in the petri dish phase 4 (sugar).
42. TT-$\pi$ plot for the ant in the petri dish phase 1 (undisturbed). Blue indicates parallel, green intermediate, red anti-parallel.
43. TT-$\pi$ plot for the ant in the petri dish phase 2 (undisturbed).
44. TT-$\pi$ plot for the ant in the petri dish phase 3 (rubber cannula).
45. TT-$\pi$ plot for the ant in the petri dish phase 4 (sugar).
46. Histogram of parallelity values for the TT-$\pi$ plot for the whole phase 4.
47. Histogram of parallelity values for the TT-$\pi$ plot for the time with little movement in the middle of phase 4.
48. TT-$\delta$ plot of lynx 1 for a three months period in spring. Short distances are indicated in blue, medium ones in green and large distances have a yellow to red color. The same color scheme is used in the following figures.
49. Detail of the TT-$\delta$ plot for lynx 1. The color scheme was rescaled to account for the maximum distance within this part of the observation period.
50. TT-$\delta$ plot of lynx 2 for a one year period.
51. Detail of the TT-$\delta$ plot for lynx 2. The color scheme was rescaled to account for the maximum distance within this part of the observation period.
52. TT-$\delta$ plot of lynx 3 for a one year period.
53. TT-$\delta$ plot of lynx 4 for a one year period.
54. Detail of the TT-$\delta$ plot for lynx 4. The color scheme was rescaled to account for the maximum distance within this part of the observation period.
55. TT-$\delta$ plot for a Greater Mouse-eard bat Myotis myotis from Portugal.
56. A cow in the middle of a road in Zurich (Switzerland).
57. Example RDF configuration map.
58. Example RDF area plot.
59. Example RDF percent area plot.
60. Example RDF cumulative area plot.
61. Example RDF cumulative percent area plot.
62. The RDF Family.
63. RDF for the main badger setts in the Knonaueramt area.
64. Cumulative RDF for the main badger setts in the Knonaueramt area.
65. The creation of a temporal RDF-plot.
66. Example of a temporal RDF-plot.
67. Second example of a temporal RDF-plot.
68. Directional RDF configurations.
69. Spatial configuration of the meadows around one of the badger setts in the Knonaueramt.
70. Directional RDFs of the meadows around one of the badger setts in the Knonaueramt (1).
71. Directional RDFs of the meadows around one of the badger setts in the Knonaueramt. (2)
72. TUPF: main window elements
73. TUPF: Changing the time point.
74. TUPF: Changing the data frame width
75. TUPF: Moon illumination
76. TUPF: T-r plot