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For some research purpose I've build a small tanks game where you have 1 tank controlled by a player and one or more NPC tanks.

Now I want these NPC tanks to navigate through a field which they have no knowledge of. They can detect obstacles if they are in a certain range. If they detect those obstacles they should save them in a certain data construct that's easy to query. So that they can take them in account when moving.

Now here is where I'm stuck : if my field would be a grid it would be quite easy for me, I would just save which tiles/nodes the obstacle is on.

But I haven't really worked with a grid, my tanks just move forward a few pixels depending on their speed, so a tank can be located on any pixel combination, as well as the obstacles.

Now how would I handle this? Collision detection is out of scope. Am I forced to use some kind of grid or waypoints ?

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the screen pixels do form a grid. Why not use it? –  goncalopp Dec 22 '12 at 22:47
    
That makes the grid way too large. Path finding will be almost impossible. –  gl3nn Dec 22 '12 at 22:57
    
unless you have very small paths, you can downscale the grid, and the results will be accurate, no? –  goncalopp Dec 22 '12 at 22:59
    
What if I have 2 obstacles next to each other, but one placed 1 pixel higher.. –  gl3nn Dec 22 '12 at 23:04
    
that would be a small path indeed. How big are the tanks? –  goncalopp Dec 22 '12 at 23:11

1 Answer 1

up vote 2 down vote accepted

why not use a navigation mesh solution? seems like exactly what you're looking for, a method for representing a domain for ai navigation with arbitrary polygonal obstacles.

github is down at the moment, but according to this website (which is worth checking out, it's an interesting Java implementation), this project has a python navigation mesh implementation.

edit

Based on your comments below, I think that a hierarchical representation is actually closer to the answer you are looking for. This article links to a paper describing how to abstract the pixel-by-pixel grid (with arbitrary shaped obstacles) into a node-edge graph for increased speed in navigation calculations. By incorporating this type of hierarchical representation with a dynamic navigation algorithm such as d* (see this answer for an overview of dynamic navigation algorithms), you should be able to implement a solution to your problem.

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But such a navigation mesh has to be defined before the game starts, in this way the AI can't really discover the map. Or am I wrong? –  gl3nn Dec 23 '12 at 14:37
    
That's a good point. The navigation mesh does have to be pre-computed. –  brentlance Dec 23 '12 at 20:50
    
I've updated the answer. Hopefully it is more helpful. –  brentlance Dec 24 '12 at 4:37
    
Well this certainly looks interesting, I've +1'ed your answer. –  gl3nn Dec 24 '12 at 15:59
    
Thank you. Good luck! –  brentlance Dec 24 '12 at 16:25

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