Lecture 20: Introduction to Color Science (Cont) (19)
Zyy7390
This process reminds me of Fourier decomposition where we analyze a function and transform it into linear combination of sin/cos functions. In the same way our brain is doing this from time to time with much faster speed and high accuracy, which is pretty amazing.
wizgrao
I was doing some research for my final project, and came across the retinex theory, or the idea that we perceive color independent of the scene lighting. There has been a lot of work in trying to do reflectance reconstruction using a bio inspired design https://docs.opencv.org/3.1.0/d2/d94/bioinspired_retina.html
serser11
I looked in to the structure of eyes and found an interesting fact - rods are more sensitive to lightness while cones are more sensitive to color perception
serser11
It's interesting that not all of our visual fields are stereo, temporal peripheries are monocular (either only the left or right eye)
This process reminds me of Fourier decomposition where we analyze a function and transform it into linear combination of sin/cos functions. In the same way our brain is doing this from time to time with much faster speed and high accuracy, which is pretty amazing.
I was doing some research for my final project, and came across the retinex theory, or the idea that we perceive color independent of the scene lighting. There has been a lot of work in trying to do reflectance reconstruction using a bio inspired design https://docs.opencv.org/3.1.0/d2/d94/bioinspired_retina.html
I looked in to the structure of eyes and found an interesting fact - rods are more sensitive to lightness while cones are more sensitive to color perception
It's interesting that not all of our visual fields are stereo, temporal peripheries are monocular (either only the left or right eye)