I am trying to understand this algorithm, but not able to get proper documents and explanations. Can someone please help me understand this clustering algorithm.

• Kindly post if you found any reference – GeorgeOfTheRF May 21 '16 at 12:42
• Yes, i have found one. Will post. Please give me a day or two. – Rndp13 May 22 '16 at 19:27
• H. Spath, Cluster Analysis -- Algorithms for Data Reduction and Classification of Objects, Ellis Horwood Limited, West Sussex, UK, 1980. – Till Schäfer Feb 8 '19 at 14:03

Leader algorithm is a incremental clustering algorithm generally used to cluster large data sets. This algorithm is order dependent and may form different clusters based on the order the data set is provided to the algorithm. The algorithm consists of the following steps.

Step 1: Assign the first data item, P1 to cluster C1. This data set will be the leader of the cluster C1.

Step 2:Now move to the next data item say P2 and calculate its distance from the leader P1. If the distance between P2 and leader P1 is less than a user specified threshold (t) then data point P2 is assigned to this cluster (Cluster C1). If the distance between leader P1 and data item P2 is more than the user specified threshold t, then form a new cluster C2 and assign P2 to this new cluster. P2 will be the leader of the cluster C2.

Step3: For all the remaining data items the distance between the data point and the leader of the clusters is calculated. If the distance between the data items and the any of the leader is less then the user specified threshold, the data point is assigned to that cluster. However, If the distance between the data point and the any of the cluster's leader is more than the user specified threshold, a new cluster is created and that particular data point is assigned to that cluster and considered the leader of the cluster.

Step 4: Repeat Step 3 till all the data items are assigned to clusters.

Example to get the theory clear.

Consider the patterns are located at

``````A (1, 1),B(1, 2), C(2, 2), D(6, 2), E(7, 2), F(6, 6), G(7, 6)
``````

Let the data be processed in the order `A, B, C, D, E, F and G`, and the user specified threshold `T` be `3`. `A(1, 1)` is the first data item processed and it is assigned to cluster `C1` and also made the leader of `C1`.

For the second point `B`, its distance from the leader `A` is calculated. Using euclidean distance formula ( `Distance(a, b)) = √(x - a)² + (y - b)²` ), we get the distance as `√(1 - 1)² + (1 - 2)² = 1`, this is less than the user specified threshold `3`, so `B` is assigned to the Cluster 1.

For the third point `C(2, 2)` the distance between leader `A(1, 1)` of cluster `C1` and point `C` is calculated. Using the Euclidean formula the distance is `√(1 - 2)² + (1 - 2)² = 1.41`, which is less than threshold, so `C` is also assigned to `C1`. Distance between A and D (√(1 - 6)² + (1 - 2)² = 5.099 ) is more than the user specified threshold 3, so a new cluster is created and D is assigned to cluster `C2`. D is the leader of this cluster.

For the point `E`, its distance from `A` (leader of `C1` ) and `D` (leader of `C2`) is calculated. Since `Distance(D,E)` is less then the user specified threshold `3`, it is assigned to cluster 2.

The distance of F from `A` (the leader of C1) is `7.07` and from `D` (the leader of C2) is `4`. Both these distances are above the threshold and therefore `F` is put into the new cluster `C3` and is made the leader of this cluster. For `G` the `Distance(A,G)`, `Distance(D,G)` and `Distance(F,G)` are `7.81`, `6.41` and `1` respectively. Since `Distance(F,G)` is less then user specified `3` it is assigned to cluster 3.

It can be seen that if the data had been processed in a different order, the cluster leaders would have been different—even the clusters can vary. If `C` occurred before `A` and `B`, then `C` would have been the leader of `C1`. If `D` occurred before and the distance between `C` and `D` was less than the threshold, it would have been in `C1`. This may not occur if `A` is the leader. The leader algorithm is therefore order dependent and may give different results based on the order of processing.

• Even if I specify radius =say 1km. I am getting points which are say 10 kms from the centroid. Why is the algorithm enforcing this radius constraint strictly? Is there a way to strictly enforce the radius constrain? – GeorgeOfTheRF May 29 '16 at 5:37
• The algorithm has excellent implementation in R: leaderCluster in CRAN. Does anyone know a Python implementation? scipy.cluster.hierarchy.leaders is NOT the leader-algorithm! It is a different one – Amitai Jul 31 '16 at 8:52
• Any additional comments on the performance and accuracy aspect of it. I understand it is reasonably faster than K-means as there is no optimization part involved. But how effective is it in classifying the dataset into clusters – Abhi Nov 5 '16 at 17:23