TY - JOUR
T1 - Modifications of Tanaka's illuminated contour method
AU - Kenelly, P.
AU - Jon Kimerling, A.
N1 - Funding Information:
Figure 12. Illuminated contours using variations in the color and thickness of lines. The color of contour lines varies with aspect and is based on the MKS-ASPEC'fTM color scheme of Moellering and Kimerling (1990). MKS-ASPEC'fTM is protected by two patents, No. 5,067,098 and No. 5,283, 858, and is formal property of The Ohio State University Research Foundation. The thickness of contour lines varies with slope.
Funding Information:
ACKNOWLEDGEMENTS We would like to thank Dr. Harold Moellering for permission to use the MKS-ASPECT™ color scheme for Figure 12. MKS-ASPECVM is protected by two patents, No. 5,067,098 and No. 5,283, 858, and it is a formal property of The Ohio State University Research Foundation.
PY - 2001/4
Y1 - 2001/4
N2 - Visualization of topography can be greatly facilitated by the illuminated contour method. This method, popularized in a hand-drafted map by Tanaka, uses a gray background with black and white contours. A direction of illumination is assumed, and white contours represent illuminated topography, while black contours represent non-illuminated or shaded areas. Additionally, thickness of contours varies with the cosine of the angle between the azimuth of maximum slope (i.e., aspect) and the azimuth of illumination. We modified Tanaka's method by basing thickness of contour lines on twice the cosine of the angle between the surface normal and the illumination vector. The cosine of this angle is most commonly used in analytical hill shading. In addition, we present maps with changes in other visual variables and offer our evaluations. Lines with gray tones instead of black and white lines do not improve the illumination effect. We believe variations in the colors of contours and background with elevation can visually enforce information regarding topography. Our use of colors for aspect and variations in the width of contours for slope adds information to the map but does not assist with visualization of topography.
AB - Visualization of topography can be greatly facilitated by the illuminated contour method. This method, popularized in a hand-drafted map by Tanaka, uses a gray background with black and white contours. A direction of illumination is assumed, and white contours represent illuminated topography, while black contours represent non-illuminated or shaded areas. Additionally, thickness of contours varies with the cosine of the angle between the azimuth of maximum slope (i.e., aspect) and the azimuth of illumination. We modified Tanaka's method by basing thickness of contour lines on twice the cosine of the angle between the surface normal and the illumination vector. The cosine of this angle is most commonly used in analytical hill shading. In addition, we present maps with changes in other visual variables and offer our evaluations. Lines with gray tones instead of black and white lines do not improve the illumination effect. We believe variations in the colors of contours and background with elevation can visually enforce information regarding topography. Our use of colors for aspect and variations in the width of contours for slope adds information to the map but does not assist with visualization of topography.
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U2 - 10.1559/152304001782173709
DO - 10.1559/152304001782173709
M3 - Article
AN - SCOPUS:0035299405
SN - 1523-0406
VL - 28
SP - 111
EP - 123
JO - Cartography and Geographic Information Science
JF - Cartography and Geographic Information Science
IS - 2
ER -