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Wiki says, that heuristic function is estimate of the distance from the current node to the goal in that case.

But there are no description of function heuristic_cost_estimate in this code: link to wikiperida

AM I RIGHT?... For example, I have graph with 3 vertexes. I must have 3 heuristics from each vertex to goal vertex and I set up with setting up vertexes?

Matrix (weight):

0 5 2
1 0 3
1 2 0

Heuristic function for each vertex (values means heuristic cost from current vertex to goal, for example cost from 2 to goal will be 3):

5 3 4

It is strange assumption, isn't it? I don't know what vertex would be goal. How I can set up heuristic function at this step?

OR?... I have 3 vertexes and 9 heuristics.

Graph matrix:

0 5 2
1 0 3
1 2 0

Heuristic cost:

0 5 10
5 0 10
3 8 0

It means this. If 3 is goal, heuristic cost from 1 to goal will be 3. If 2 is goal, cost from 1 to 2 (goal) will be 5.


What is heuristic function in my case (finding optimal path on graph)?

share|improve this question
You'll need to clearly explain what problem you're actually trying to solve with A*. "Finding optimal path" still leaves us making quite a few assumptions. – Dukeling Apr 10 '14 at 22:12
up vote 2 down vote accepted

The heuristic function is one function h:V->R where V is your vertices, and R is for real numbers. In other words - the heuristic function gives a value for each vertex - that estimates 'how close it is' to the target.

Heuristic function cannot be always used, you need to have some information on your graph to be able to use them.

For example, if you are solving a maze, every cell in the matrix (which is not a wall) is a vertex, and possible moves between adjacent cells represent edges.
In this example - the heuristic function can be the manhattan distances - which is, given a target cell t - the heuristic is h(v) = |t.x - v.x| + |t.y - v.y|.

If you have no idea how close you are to your target - you cannot use any heuristic function, you have no information. (In fact, the only heuristic you can use is the non-informative one, h(v) = 0 for each v - but that's pointless).

Also note, in order for A* to be optimal with your heuristic function (let it be h), you need it to be admissible - that means that for every vertex v: h(v) <= d(v,target), where d(v,target) is the real distance from v to the target.
Note that for example the manhattan distances heuristic for maze is admissible.

Hope that solves your confusion.

share|improve this answer
So heuristic function is setting up with vertexes, right? I created vertex X and set up heuristic cost for it Y. Y is heuristic cost that means distance from X to goal, right? But I don't know about goal, when I created vertex. And what if goal is changed? X vertex heuristic cost will be same for another vertex too? I don't understand this moment. ADD is the real distance — real straight distance or distance throw other vertexes to goal? – Sharikov Vladislav Apr 10 '14 at 22:18
@SharikovVladislav If goal is changed, you need a different heuristic function. The heuristic function is specific per goal (or set of goals, to be exact). If the goal is changed - then most likely the heuristic is going to need to be changed as well. the real distance is the real shortest path from the node to the target, through other vertices. – amit Apr 10 '14 at 22:19
Oh okay. So I have graph. For example this one: link to image. 4 is goal (red one). For example, I changed goal to 3rd vertex. I have to update heuristic cost now from each vertex to goal, right? – Sharikov Vladislav Apr 10 '14 at 22:22
@SharikovVladislav If you want it to be admissible and informative (and you do), then yes - you have to. – amit Apr 10 '14 at 22:24
Heuristic cost is assumption, right? So I watch on the graph and making assumption. What do I need to pay attention to? – Sharikov Vladislav Apr 10 '14 at 22:25

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