The hardware and bandwidth for this mirror is donated by METANET, the Webhosting and Full Service-Cloud Provider.
If you wish to report a bug, or if you are interested in having us mirror your free-software or open-source project, please feel free to contact us at mirror[@]metanet.ch.
Assume, you have two datasets A and B and want to know which observation in A is the nearest one to each observation in B. You have to calculate the distance between each observation in B to every observation in A. This calculation results in a dataset with the same number of observations as in dataset B.
As an example we use the two 'Cornerstone' datasets 'gas90' and 'gas91' with the goal to get the matching observation from 'gas90' to each observation in 'gas91'.
How do we perform this calculation in 'Cornerstone' via 'matchNearestNeighbor' from 'CornerstoneR'?
As a preparation we have to redirect dataset 'gas90' to an 'R' object with the result shown in the following screenshot. For details on redirecting a dataset please consider the help for 'Redirect Dataset to R Object'.
In this example we redirect the variables 'Dollar', 'Gallons', and 'Miles' as predictors and use 'Date' as auxiliary variable.
Now we open the dataset 'gas91' in 'Cornerstone' and choose menu 'Analysis' -> 'CornerstoneR' -> 'Match Nearest Neighbor from Redirected Datasets' as shown in the following screenshot.
In the appearing dialog, see next screenshot, select 'Dollar', 'Gallons', and 'Miles' as predictors. 'Date' is the auxiliary variable. As you can see, the redirected dataset should match to the current dataset in a form that the corresponding variables are named equally.
'OK' confirms your selection and the following window appears.
At this point we add the redirected dataset to the matching nearest neighbor dialog at hand. It is possible via menu 'R Script' -> 'Input R Objects' which brings up the following dialog.
We choose 'Redirected Dataset' as selected 'R' objects and click 'OK'. It is possible to select multiple redirected datasets for the calculation. In this case the algorithm searches for each observation its nearest neighbor from each redirected dataset independently.
Now, click the execute button (green arrow) or choose the menu 'R Script' -> 'Execute' and all calculations are done via 'R'. Calculations are done if the text at the lower left status bar contains 'Last execute error state: OK'. Our result is available via the 'Summaries' menu as shown in the following screenshot.
We get the resulting dataset via 'Summaries' -> 'Nearest Neighbors' as shown in the following screenshot.
The first four columns represent the original observations from 'gas91'. The following four columns show the selected observation from dataset 'gas90' with is nearest considering Euclidean distance in the last column 'min.distance'. Due to the fact that we choose 'Date' as auxiliary variable the distance is calculated based on the three selected predictor variables. In the multiple case we get additional columns for each redirected dataset.
Additionally, we get the runtime of this 'R' script via 'Summaries' -> 'Runtimes' as shown in the following screenshot.
This measurement helps to estimate calculation time for a growing dataset.
Finally, the 'Cornerstone' workmap with all generated objects looks like the following screenshot.
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.