Add to ORKGThe importance of allowing for recent shared ancestry when calculating forensic match probabilities has been recognised for some time. Within-subpopulation inbreeding will also affect the match probability, and ignoring these effects can lead to an overstatement of the strength of the DNA evidence against a defendant. However, inbreeding can be readily accounted for in match probabilities by incorporating the inbreeding coefficient F into calculations. We derive the IS necessary formulae, and demonstrate the effect of including F (in addition to F ) in the IS ST equations
<div><p>The introduction of forensic autosomal DNA profiles was controversial, but the problems were...
When parents have the same surname this is often due to common ancestry and therefore parental isony...
The assessment of DNA mixtures with the presence of relatives is discussed in this paper. The kinshi...
A two-locus match probability is presented that incorporates the effects of within-subpopulation inb...
Assigning probabilities to alleged relationships, given DNA profiles, requires, among other things, ...
An update was performed of the classic experiments that led to the view that profile probability ass...
In this paper, we study the statistical interpretation of forensic DNA mixtures with related contrib...
In forensic genetics, DNA profiles are compared in order to make inferences, paternity cases being a...
Background: DNA mixtures of two or more people are a common type of forensic crime scene evidence. A...
We consider the assessment of deoxyribonucleic acid (DNA) profiles from biological samples containin...
Y-haplotype profiling presents special advantages for forensic casework, paternity and population st...
The aim of this research is to assess the effect of recent admixture on the evaluation of DNA eviden...
Suppose a crime has been committed and a blood stain was collected from the crime scene. It is belie...
A recent study of partial matches in the Arizona offender database of DNA profiles has revealed a la...
Crow and Mange (1965) developed a method to estimate the inbreeding coefficient (F) through an ingen...
<div><p>The introduction of forensic autosomal DNA profiles was controversial, but the problems were...
When parents have the same surname this is often due to common ancestry and therefore parental isony...
The assessment of DNA mixtures with the presence of relatives is discussed in this paper. The kinshi...
A two-locus match probability is presented that incorporates the effects of within-subpopulation inb...
Assigning probabilities to alleged relationships, given DNA profiles, requires, among other things, ...
An update was performed of the classic experiments that led to the view that profile probability ass...
In this paper, we study the statistical interpretation of forensic DNA mixtures with related contrib...
In forensic genetics, DNA profiles are compared in order to make inferences, paternity cases being a...
Background: DNA mixtures of two or more people are a common type of forensic crime scene evidence. A...
We consider the assessment of deoxyribonucleic acid (DNA) profiles from biological samples containin...
Y-haplotype profiling presents special advantages for forensic casework, paternity and population st...
The aim of this research is to assess the effect of recent admixture on the evaluation of DNA eviden...
Suppose a crime has been committed and a blood stain was collected from the crime scene. It is belie...
A recent study of partial matches in the Arizona offender database of DNA profiles has revealed a la...
Crow and Mange (1965) developed a method to estimate the inbreeding coefficient (F) through an ingen...
<div><p>The introduction of forensic autosomal DNA profiles was controversial, but the problems were...
When parents have the same surname this is often due to common ancestry and therefore parental isony...
The assessment of DNA mixtures with the presence of relatives is discussed in this paper. The kinshi...