Assume graphs of degree at most three for this question.

A graph is said to be k-isoregular if for every subset $S$ of at most $k$ vertices the number common neighbors of the elements of $S$ depends only on the isomorphism type of the subgraph induced by $S$.
 The $k$-dimensional  Weisfeiler Lehman fails on  $k$-iso-regular regular graphs. $k$ is a constant here, definitely if $k = O(n)$ then $k$-dimensional  Weisfeiler Lehman will work correctly.

Suppose I bound the maximum degree of the input graph to three, then also there are graphs on which $k$-dimensional  Weisfeiler Lehman fails. So one possible way to deal this situation is **individualization** along with $k$-dimensional  Weisfeiler Lehman.

Small example of an iso-regular graph: 

[![enter image description here][1]][1]

**Question :** Is there any known claim on the size of individualization set for $k$-iso-regular graphs ( degree at max three )? Is constant size individualization set possible? 
I tried to search on google scholar, but did not get anything specific.


  [1]: https://i.sstatic.net/7zhVT.jpg