This article talks about Lens Matched Shading using a practical example. It describes the benefits of LMS and other related optimizations that reduce the amount of redundant shading computations, and increase the effective resolution of a rendered image. It also mentions ways to tackle lens distortion.
jierui-cell
I am actually a bit confused here. I see how the LMS image can help solve the lens warp problem. However, how's the final image projected? and what does the individual see through the lens? Is he seeing the irregular shape of the second image on the slide? Or is he seeing the normal scene?
reinaw1012
Essentially, is LMS 'redirecting' the focus/detail to the center of view?
This article talks about Lens Matched Shading using a practical example. It describes the benefits of LMS and other related optimizations that reduce the amount of redundant shading computations, and increase the effective resolution of a rendered image. It also mentions ways to tackle lens distortion.
I am actually a bit confused here. I see how the LMS image can help solve the lens warp problem. However, how's the final image projected? and what does the individual see through the lens? Is he seeing the irregular shape of the second image on the slide? Or is he seeing the normal scene?
Essentially, is LMS 'redirecting' the focus/detail to the center of view?