# How does the link type “adjusted complete” work for agglomerative hierachical clustering in WEKA?

The only descriptions I can find about "adjusted complete" linkage say something like: "same as complete linkage, but with largest within cluster distance"

What is meant by "within cluster distance"?

How is the distance between two clusters finally calculated using this linkage approach?

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One of the great things about open-source software is that you can find out exactly how the software works. The code below shows Weka's source code of the `HierarchicalClusterer` algorithm, more specifically it shows the part which implements the `COMPLETE` and `ADJCOMPLETE` functionality. The difference is as follows:

• Just like the `COMPLETE` linkage method, compute the maximum distance between one node from cluster 1 and one node from cluster 2 and store this in `fBestDist`
• Then, find the largest distance between nodes within cluster 1 or cluster 2 and store this in `fMaxDist`
• Finally subtract `fMaxDist` from `fBestDist`

So the distance between two clusters calculated using `ADJCOMPLETE` as `linkType` corresponds to the `COMPLETE` distance minus the largest distance between 2 nodes within either cluster 1 or cluster 2.

`Adjusted Complete-Link` was proposed in the following paper:

Sepandar Kamvar, Dan Klein and Christopher Manning (2002). Interpreting and Extending Classical Agglomerative Clustering Algorithms Using a Model-Based Approach. In Proceedings of 19th International Conference on Machine Learning (ICML-2002)

According to it (section 4.2), `Adjusted Complete-Link` is a version of `Complete-Link` which should be used if the clusters having varying radii (see Figure 10).

``````case COMPLETE:
// find complete link distance aka maximum link, which is the largest distance between
// any item in cluster1 and any item in cluster2
fBestDist = 0;
for (int i = 0; i < cluster1.size(); i++) {
int i1 = cluster1.elementAt(i);
for (int j = 0; j < cluster2.size(); j++) {
int i2 = cluster2.elementAt(j);
double fDist = fDistance[i1][i2];
if (fBestDist < fDist) {
fBestDist = fDist;
}
}
}
break;
}
// calculate adjustment, which is the largest within cluster distance
double fMaxDist = 0;
for (int i = 0; i < cluster1.size(); i++) {
int i1 = cluster1.elementAt(i);
for (int j = i+1; j < cluster1.size(); j++) {
int i2 = cluster1.elementAt(j);
double fDist = fDistance[i1][i2];
if (fMaxDist < fDist) {
fMaxDist = fDist;
}
}
}
for (int i = 0; i < cluster2.size(); i++) {
int i1 = cluster2.elementAt(i);
for (int j = i+1; j < cluster2.size(); j++) {
int i2 = cluster2.elementAt(j);
double fDist = fDistance[i1][i2];
if (fMaxDist < fDist) {
fMaxDist = fDist;
}
}
}
fBestDist -= fMaxDist;
break;
``````
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Yes it did, thanks for your fast reply! –  Björn Aug 10 '12 at 7:59