I'm learning the A* path finding algorithm and all of the examples I'm finding are grid based. Because of this, all their heuristics functions rely on some sort of physical distance (ie Manhattan based, Diagonal or Euclidian).
But what if instead of a grid we have a freeform graph? Say the exam...
@slider No context in particular. Lets say its a relationship graph and I want to know the degrees of separation between S and G. How would I estimate the approximate distance from any node to any other node?
@Tuan333 I'm already assuming all costs are 1 (hence the lack of weights). The question is, how do I estimate the distance for the rest? I don't know how many nodes are left.
@HirakSarkar Because what is the distance manhattan distance from S to G? Keep in mind, this is a graph and not a grid. I wrote 2 equivalent forms of the same graph, but if you were to treat them like a grid and get the manhattan distance from S to G, the result would be different.
@DavidGrinberg I got your point. But if we think that each edge of the graph is of unit length. Then the distance between S and G is still 3. I think I am missing something and may sound really stupid :P
@HirakSarkar How can we find the distance between D and G without actually calculating it? The point of the heuristic is that we are estimating it without actually going through the work of calculating it.
@DavidGrinberg Okay I got your point. So you are basically asking there is a graph G and with positive weights now you want to search for G node from S node with A*, and you want a heuristic. Am I correct? You specifically meant there are no grid structure so it is a simple graph !!
@DavidGrinberg In that case if there is no additional information and the graph is really really large then we can take minimum edge length as the heuristic. It is admissible because S is not goal node. Now if we take anything greater then we can always construct the graph with G present in the second level of BFS. Am I making sense ?
