Changes

A light field can be represented using a [[plenoptic function]], which is a 5 dimensional function. A light field can be represented in 4 dimensions using the two-plane method.<ref name="k782">{{cite conference | last=Gortler | first=Steven J. | last2=Grzeszczuk | first2=Radek | last3=Szeliski | first3=Richard | last4=Cohen | first4=Michael F. | title=The lumigraph | publisher=ACM | date=1996 | isbn=978-0-89791-746-9 | doi=10.1145/237170.237200 | page=43–54}}</ref>

A light field can be represented using a [[plenoptic function]], which is a 5 dimensional function. A light field can be represented in 4 dimensions using the two-plane method.<ref name="k782">{{cite conference | last=Gortler | first=Steven J. | last2=Grzeszczuk | first2=Radek | last3=Szeliski | first3=Richard | last4=Cohen | first4=Michael F. | title=The lumigraph | publisher=ACM | date=1996 | isbn=978-0-89791-746-9 | doi=10.1145/237170.237200 | page=43–54}}</ref>

Light fields are useful for 3D because the largest or second largest factor that determines focus is the angle of rays coming into the eye.

Light fields are useful for 3D because the largest or second largest factor that determines focus is the angle of rays coming into a human eye.

A light field is typically non-relativistic.

A light field is typically non-relativistic.