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I have a question about the Beam Search Algorithm. For example, lets say that n=2 ( the number of nodes we are going to expand from every node). So at the begining, we only have the root, with 2 nodes that we expand from it. Now from those two nodes, we expand two more. So at the moment we have 4 leafs. We will continue like this till we find the answer. Is this how beam search works ? Does it expand only 2 of every node, or it keeps 2 leafs (at all the time) ?

I am sorry for my bad English. There is a beam search example on this site . I am having trouble understandig it. I do understand the first part, Arad -> Sibiu, Arad -> Timisoara. We discard Zerind, because n=2. But I don't understand the second part of it, why is Timisoara discarded, shouldn't we see Timisoara's nodes as well and then decide which nodes will get discarded? Maybe Timisoara has better nodes than those of Sibiu? And my final question, does n=2 mean that at any point in time, we should have only 2 active nodes? I used to think that n=2 means that we should have 2 active nodes at most from each node, not two for the whole tree.

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Please add links, references or explanations for what you are talking about. – RBarryYoung Mar 8 '14 at 18:29
up vote 3 down vote accepted

Unless you are referring to some variant that is not the concensus beam-search, no.

In Beam-Search, the number of the nodes you currently 'know about' is limited - and NOT the number of nodes you will follow from each node.

That means, that if n=2, your beam will be at most of size 2 - at all time, so you start from one node, then you discover all nodes that are reachable from it, but discard all of them but two, and finish step 1 with 2 nodes.
At step 2, you have two nodes, and you will expand both, and discard all nodes again - except exactly 2 nodes (total, not from each!).
In the next steps - similarly, you will keep 2 nodes after each step.

Choosing which node to keep is usually done by some heuristic function that evaluates which node is closest to the target.

Note that Beam-Search is not complete (finds a solution if one exists) nor optimal (finds the best solution), and the best way to see it is witnessing that when n=1, it basically reduces to best-first-search.

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Thanks a lot for the answer. Can you pls explain about the example i just posted in my main post ? – Dvorog Mar 8 '14 at 18:45
@Dvorog In the slides you have posted, the example is wrong in depth=2. Rimmiciu with h=193 should have been kept instead of Oradea with h=380. You should contact your course staff so they can change the mistake. In addition, the example does not clarify that two nodes form different branches might be kept. – amit Mar 8 '14 at 18:51
Okey, one more question before I go do my homework. Because beam search is a variation of Best First Search, does it mean that it's function f(n) = g(n) (the path already traveled) + h(n) (heuristic function). I couldn't find any info about this on the net. – Dvorog Mar 8 '14 at 18:58
@Dvorog Depends on the graph. If it's unweighted - it does not matter, because g(n) in each step is identical for all nodes. If the graph is weighted - it will be wise to follow f(n). – amit Mar 8 '14 at 19:05
Okey, thank you again for your answers, it really helped a lot :) – Dvorog Mar 8 '14 at 19:07

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