Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 6American Society of Mechanical Engineers, 1988 - Arctic regions |
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Page 7
as the mirror reflection vector . Figure 16 shows the effects of combining specular and diffuse reflection . Figure 17 was rendered with 75 % diffuse reflection and 25 % specular reflection with a specular exponent of 15.
as the mirror reflection vector . Figure 16 shows the effects of combining specular and diffuse reflection . Figure 17 was rendered with 75 % diffuse reflection and 25 % specular reflection with a specular exponent of 15.
Page 8
100 % specular reflection Exp = 5 100 % Specular reflection Exponent = 5 Figure 14 - a Figure 14 - b 100 % specular reflection , specular exponent set to 5. The incoming light is scattered predominantly in the direction that a mirror ...
100 % specular reflection Exp = 5 100 % Specular reflection Exponent = 5 Figure 14 - a Figure 14 - b 100 % specular reflection , specular exponent set to 5. The incoming light is scattered predominantly in the direction that a mirror ...
Page 18
This normal vector perturbation ( Figure 6 ) is performed when we are creating reflected or refracted rays . ... The Platform in Water with Reflection and Refraction In addition to the correct modeling of the surface , the properties of ...
This normal vector perturbation ( Figure 6 ) is performed when we are creating reflected or refracted rays . ... The Platform in Water with Reflection and Refraction In addition to the correct modeling of the surface , the properties of ...
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Contents
COMPUTER TECHNOLOGY 3D GRAPHICS | 1 |
COMPUTER TECHNOLOGY ROBOTICS AND SYSTEMS CONTROL | 29 |
A Computer System for Permanent Control of Offshore Structure Behaviour | 39 |
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actions algorithm allows analysis applications approach base blending boundary calculated capacity causes color complete components Conference constant constraints construction contains cost curve depth described detailed determined direction display distribution drag effect elements engineering equation example expert system external Figure force frame function geometry given horizontal implementation integrated interactive interface International involved knowledge lead length light linear load manufacturing Mechanics method modules mooring mooring line motion object offshore operations parameters performed planning platform position possible presented probability problem production radius reduce reflection representation represents Research robot rules selection shown shows simulation solid solution space stiffness structural surface task techniques unit values variables vector vessel weight welding Wire
Bibliographic information
| Title | Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 6 |
| Contributor | American Society of Mechanical Engineers. Offshore Mechanics and Arctic Engineering Division |
| Publisher | American Society of Mechanical Engineers, 1988 |
| Export Citation | BiBTeX EndNote RefMan |