Monte Carlo Modeling Program

### Program Information

Name: Monte Carlo Modeling Program
Domain: Algorithm
Functionality: The program is used for accurate and efficient modeling of reflectance images from turbid tissue phantoms.
Input: refractive index $(n)$,absorption coefficient $(\mu_a)$,scattering coefficient $(\mu_s)$,anisotropy factor $(g)$
Output: contrast $(C)$,averaged reflectance $R(x,0)$(it was calculated by averaged the photon density along the $y$ axis over three rows of grid cells on each side of the $x$ axis. )

#### Reference

 Metamorphic Testing of a Monte Carlo Modeling Program https://doi.org/10.1145/1982595.1982597

### MR Information

#### MR1------

Description:
Property: Contrast $C$ value decreases when refractive index $n_2$ value increases.
Source input:
Source output:
Follow-up input:
Follow-up output:
Input relation:
Output relation:
Pattern:

#### MR2------

Description:
Property: Contrast $C$ value decreases when anisotropy factor $g_2$ value increases.
Source input:
Source output:
Follow-up input:
Follow-up output:
Input relation:
Output relation:
Pattern:

#### MR3------

Description:
Property: Contrast $C$ value increases when albedo $\alpha_2$ value increases.
Source input:
Source output:
Follow-up input:
Follow-up output:
Input relation:
Output relation:
Pattern:

#### MR4------

Description:
Property: For each pixel along the $x$ axis $P(x,0)$ on the image, the averaged reflectance $R(x,0)$ will decrease if the numerical aperture (NA) decreases.
Source input:
Source output:
Follow-up input:
Follow-up output:
Input relation:
Output relation:
Pattern:

#### MR5------

Description:
Property: For each pixel along the $x$ axis $P(x,0)$ on the image, the averaged reflectance $R(x,0)$ will decrease if the incident light angle $\theta_0$ increases.
Source input:
Source output:
Follow-up input:
Follow-up output:
Input relation:
Output relation:
Pattern:
Insert title here