# Yield Curve package R

I want to interpolate a yield curve using Nelson-Siegel model. I'm new to R language but decided to use the "Yield Curve" package (available here http://cran.r-project.org/web/packages/YieldCurve/index.html and documentation's link: http://cran.r-project.org/web/packages/YieldCurve/YieldCurve.pdf) There are 2 problems I faced:

1) I don't understand why the first 2 parameters of NSrates in the 6th and 7th line of the following code(p.6 in documentation) took that format:

``````data(FedYieldCurve)
tau <- c(3, 6, 12, 60, 84, 120)
mediumTerm <- c(12,60,84)
NSParameters <- Nelson.Siegel(rate=FedYieldCurve[1:10,],
maturity=tau, MidTau=mediumTerm )
y <- NSrates(NSParameters[5,1:3],
NSParameters\$lambda[5],tau)
plot(tau,FedYieldCurve[5,],main="Fitting Nelson-Siegel yield curve", type="o")
lines(tau,y, col=2)
legend("topleft",legend=c("observed yield curve","fitted yield curve"),
col=c(1,2),lty=1)
grid()
``````

2) how to extract a certain yield from the curve? For example, If I have a maturity of 12 months, what is its related yield?.

Thank you a lot for taking time to answer my questions.

-

Look at the help page for `NSrates`.

It takes 3 arguments:

betaCoeff: vector or matrix of the beta's coefficients.

lambdat: value of the estimated lambda

maturity: maturity of the yield curve of which want to return the interest rates.

For `betaCeff`, the code you show uses `NSParameters[5, 1:3]`, or

``````   beta_0    beta_1   beta_2
5 13.7156 -1.468064 1.237194
``````

which is a `data.frame`. Although `data.frame` is not explicitly stated as a possible input, the first line of the function converts it to a `matrix` (assuming you're using the CRAN version)

``````if(is.vector(betaCoeff)) betaCoeff <- matrix( betaCoeff, 1, 3)
``````

For `lambdat`, the code you show uses `NSParameters\$lambda[5]` which is the `numeric` value to use for the estimated lambda.

The final argument is `maturity`. The code you showed uses `tau` which is

``````> tau
[1]   3   6  12  60  84 120
``````

Per the documentation, the function will

Return interest rates in matrix object with number of rows equal to nrow(betaCoeff) and number of columns equal to length(maturity).

In this case, you get

``````> y
3        6       12      60       84      120
[1,] 12.7394 13.05852 13.40245 13.6897 13.69721 13.70273
``````

If you only want the 12 month `maturity`, then pass only `12` to the `maturity` argument.

``````> NSrates(NSParameters[5,1:3], NSParameters\$lambda[5], 12)
12
[1,] 13.40245
``````
-
So in `NSParameters[5, 1:3]` we basically want the values of the 3 beta coefficients , but what does the first index ( [5, ) in it refers to? And for `NSParameters\$lambda[5]` I understand from your answer that it is the value of lambda, but I don't understand what the input `x` in `NSParameters\$lambda[x]` means. –  valid90 Aug 28 '12 at 10:47
`NSParameters` is a `data.frame` with 10 rows. `NSParameters[5, ]` means to only use the 5th row of the data.frame. `lambda` is a column in the `NSParameters` `data.frame`. So, `NSParameters\$lamda` is a vector of 10 values. `NSParameters\$lamda[5]` is only the 5th element of that vector and is equivalent to `NSParameters[5, "lambda"]`. See An Introduction to R for info on basic subsetting. –  GSee Aug 28 '12 at 13:04
Thank you for answering GSee. I have no problems understanding subsetting of data here. The problem is that I don't know what do the rows and columns refer to. For instance, the author used here `FedYieldCurve[1:10,]`, but what does the `[x,y]` component represent in it? Does x mean yields and y maturities? Same thing for `NSParameters[5,1:3]`, it's visible that `,1:3]` mean that we choose the first three columns of the data frame but what about the `[5,` ? Why choose the 5th line? And what does it represent? I searched a lot about this problem but unfortunateIy I have got no results. –  valid90 Aug 28 '12 at 17:30
Type `FedYieldCurve` and hit enter and I think you will be able to tell that "x" is the month and "y" is rates at various maturities; each row is an observation of the yield curve at a point in time. I can't say for sure why the author chose the 5th observation of the yield curve, but I think it was probably just chosen arbitrarily for the example. –  GSee Aug 28 '12 at 23:15