Calculate the deviation of the gray values from the approximating image plane.
The operator plane_deviation calculates the deviation of the gray values in Image from the approximation of the gray values through a plane. Contrary to the standard deviation in case of intensity__ slanted gray value planes also receive the value zero. The gray value plane is calculated according to image_plane.
If F is the plane, alpha, beta, mean are the parameters of the image plane and (r',c') is the center, Deviation is defined by: Deviation = sqrt(sum(((alpha*(r-r')+beta*(c-c')+mean)-Image(r,c))^2)/F) .
It should be noted that the calculation of Deviation does not follow the usual definition. It is defined to return the value 0.0 for an image with only one pixel.
Regions (input_object) |
region(-array) -> object |
Regions, of which the plane deviation is to be calculated. |
Image (input_object) |
image -> object : byte |
Gray value image. |
Deviation (output_control) |
real(-array) -> real |
Deviation of the gray values within a region. |
If F is the area of the region the runtime complexity amounts to O(F).
The operator plane_deviation returns the value TRUE if Image is of the type byte. The behavior in case of empty input (no input images available) is set via the operator set_system(::'no_object_result',<Result>:), the behavior in case of empty region is set via set_system(::'empty_region_result',<Result>:). If necessary an exception is raised.
intensity__, image_plane, sub__