Fig 1.
Example of the crime stain profile (CSP) in a single locus.
Fig 2.
Procedure for calculating LR in Kongoh.
Fig 3.
Plots of POI’s DNA amount vs LR values in true-contributor testing.
The red, green, and blue plots represent LR values of two-person, three-person, and four-person mixtures, respectively.
Fig 4.
LR values in non-contributor testing are shown in white circles.
The red and blue plots represent LR values of the major and minor POIs, respectively.
Fig 5.
The red and blue plots represent the results of true-contributor and non-contributor testing, respectively. The black line represents the x = y diagonal line and r is the correlation coefficient obtained by Pearson’s product-moment correlation test.
Table 1.
DNA damage method and calculation results of degradation and inhibition profiles.
Fig 6.
LR values of four models in two-person mixtures.
White, light grey, dark grey, and black bars indicate the LR values of binary model, LRmix Studio, EuroForMix, and Kongoh, respectively. (A) LR values of major POI. (B) LR values of minor POI. The asterisks indicate that the LR of binary is zero.
Fig 7.
LR values of four models in three-person mixtures.
White, light grey, dark grey, and black bars indicate the LR values of binary model, LRmix Studio, EuroForMix, and Kongoh, respectively. (A) LR values of major POI. (B) LR values of minor POI. The asterisks indicate that the LR of binary is zero.
Fig 8.
LR values of four models in four-person mixtures.
White, light grey, dark grey, and black bars indicate the LR values of binary model, LRmix Studio, EuroForMix, and Kongoh, respectively. (A) LR values of the major POI. (B) LR values of the minor POI. The asterisks indicate that the LR of binary is zero.
Table 2.
Rate of correctly determined number of contributors in four models.