#### 2017-08-06

We present a small example from “Entity Resolution with Emprically Motivated Priors”, Bayesian Analysis, (10),4:849-975. We will be using the RecordLinkage package in R and the RLdata500 data set.

The blink package removes duplicate entries from multiple databases using the method outlined in the paper above. We illustrate an example of using this package using a German dataset comprised of first and last name and full date of birth.

Our goals include

• Presenting the RLdata500 dataset with summary information.
• Illustrating how we can format the RLdata500 dataset to work with the blink package
• Examples for setting the tuning parameters for blink
• Running the Gibbs sampler in blink
• Illustrating a few plots and sample output

## Understanding the RLdata500 dataset

The RLdata500 dataset exists already in the RecordLinkage package in R. We review this data set for the user.

The RLdata500 data consists of 500 records with 10 percent duplication. Thus, there are 450 unique individuals. There is full information on each record containing first name, last name, and full date of birth.

We first load the Record Linkgae package and load the RLdata500 data set. We also, provide the first few lines of the data.

library(blink)
data(RLdata500)
head(RLdata500)
##   fname_c1 fname_c2 lname_c1 lname_c2   by bm bd
## 1  CARSTEN     <NA>    MEIER     <NA> 1949  7 22
## 2     GERD     <NA>    BAUER     <NA> 1968  7 27
## 3   ROBERT     <NA> HARTMANN     <NA> 1930  4 30
## 4   STEFAN     <NA>    WOLFF     <NA> 1957  9  2
## 5     RALF     <NA>  KRUEGER     <NA> 1966  1 13
## 6  JUERGEN     <NA>   FRANKE     <NA> 1929  7  4

## Preparing the data

Next, we prepare the data for working with the blink package. The methods assume that at least one variable is a categorical variable and one is a string variable. To proceed, we treat first and last name as string variables and full date of birth as the categorical variables.

# X.c contains the categorical variables
# X.s contains the string variables
# p.c is the number of categorical variables
# p.s contains the number of string variables
X.c <- RLdata500[c("by","bm","bd")]
X.c <- as.matrix(RLdata500[,"bd"],ncol=1)
p.c <- ncol(X.c)
X.s <- as.matrix(RLdata500[-c(2,4,7)])
p.s <- ncol(X.s)

## Setting the Tuning Parameters

Now, we give a small example for setting the tuning parameters before running the Gibbs sampler. The details regarding our recommendations can be found in the aforementioned referenced paper.

First, we work with a file number identifier.

# File number identifier
# Note: Recall that X.c and X.s include all files "stacked" on top of each other.
# The vector below keeps track of which rows of X.c and X.s are in which files.
file.num <- rep(c(1,2,3),c(200,150,150))

Next, we work with the parameters that tune the prior on the amount of distortion that goes into the model. (This corresponds to the parameters of a Beta(a,b) distribution.)

# Subjective choices for distortion probability prior
a <-1
b <- 999

Then we write a function for the Edit distance between two strings. Other distance functions could be used, such as Jaro-Winkler. Sensitivity of this distance function is discussed in the aforementioned paper.

d <- function(string1,string2){adist(string1,string2)}

For the steepness parameter, we recommend

c <- 1