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Is there a name for this BFS/DFS/IDDFS-like algorithm?

Essentially, it is a depth-first search that stops at a certain depth or cost. For example, it may DFS all nodes within 10 edges from the source, then 20, then 30. The difference is that rather than starting the DFS from scratch after each iteration, I store the "perimeter" of the searched area (a list of nodes) when each iteration of the search reaches its limits.

On the next iteration, i loop through all nodes on the perimeter, performing a DFS from each node, again to a fixed depth/cost before stopping, again recording down the perimeter of the searched area for the next iteration to start from.

The reason I am doing this is because my graph (which is a tree) is split into a set of logical "chunks", each of which must be fully explored before its child-chunks can start being explored. There are a large number of nodes but only a small number of chunks; I am essentially doing a chunk-by-chunk BFS, which each individual chunk (comprising a large number of individual nodes) being fully explored by its own mini-DFS.

Now, I just completely made this up on the spot to solve my problem, and it does, but is there anything like this in the literature? I haven't managed to find anything, but I'm sure someone else has done this before, and properly analysed its performance, asymptotic behavior, disadvantages, bugs, etc.. In that case, I would want to know about it.