1353_gpit-pv-112869.zip
Fossil larva of a dragonfly from the Miocene of Öhningen, GPIT-PV-112869, unprocessed flatbed scanner images, scale, collection labels, scan metadata and resulting normal map.
1353_gpit-pv-112870.zip
Fossil wing of a dragonfly from Braunschweig, GPIT-PV-112870, unprocessed flatbed scanner images, scale and resulting normal map.
1353_gpit-pv-112874.zip
Fossil forewing of a grasshopper from the Miocene of Öhningen, GPIT-PV-112874, unprocessed flatbed scanner images, scale and resulting normal map.
1353_gpit-pv-112875-1.zip
Fossil insect from the Miocene of Öhninge112875n, GPIT-PV-112875, depicted in Figure 7, unprocessed flatbed scanner images, scale and resulting normal maps.
1353_gpit-pv-112875-1_macro-photography.zip
Fossil insect from the Miocene of Öhningen, GPIT-PV-112875, depicted in Figure 7, unprocessed macrophotographic Multi Light Image Collections, scale and focus-merged and panoramically stitched normal map.
1353_gpit-pv-112875-2.zip
Fossil beetle from the Miocene of Öhningen, GPIT-PV-112875, depicted in Figure 6A–B, unprocessed flatbed scanner images, scale and resulting normal maps.
1353_gpit-pv-40359.zip
1353_gpit-pv-40359_animated_stereo_series.gif
Fossil beetle from the Miocene of Öhningen, GPIT-PV-40359, animated image sequence, created from flatbed scanner images.
lasercut_turnatable_strokestopaths.svg
Drawing of the turntable used to rotate specimens, placed on a 60 mm by 50 mm microscope cover slip, on the scanner window, vector graphics file suitable for laser-cuting.
lasercut_turntable.svg
Drawing of the turntable used to rotate specimens, placed on a 60 mm by 50 mm microscope cover slip, on the scanner window, vector graphics file suitable for making further adjustments.
light_point_calculation_from_rotation_and_inclination.R
R script to determine the inclination angle of the scanner based on scans of glossy spheres and to produce light point files (ASCI text files) from rotation angles and the inclination angle of the scanner.
plot_scanner_viewing_angle_curves.R
R script to plot the relationship between distance the distance to the midline of the scanner and the viewing angle onto the scanned subject for different distances between scanner optic and subject, plot depicted in Figure 2C.
