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i am using slightly modified Dijkstra algorithm in my app but it`s quite slow and i know there have to be a lot better approach. My input data are bus stops with specified travel times between each other ( ~ 400 nodes and ~ 800 paths, max. result depth = 4 (max 4 bus changes or nothing).

Input data (bus routes) :

bus_id | location-from | location-to | travel-time | calendar_switch_for_today
XX | A | B | 12 | 1
XX | B | C | 25 | 1
YY | C | D | 5  | 1
ZZ | A | D | 15 | 0

dijkstraResolve(A,D, '2012-10-10') -> (XX,A,B,12),(XX,B,C,25),(YY,C,D,5) 
=> one bus change, 3 bus stops to final destination
* A->D cant be used as calendar switch is OFF

As you can imagine, in more complicated graphs where e.g. main city(node) does have 170 connections to different cities is Dijkstra slower (~ more then 5 seconds) because compute all neighbours first one by one as it`s not "trying" to reach target destination by some other way...

Could you recommend me any other algorithm which could fit well ?

I was looking on :

Would be great to have (just optional things) : - option to prefer minimal number of bus changes or minimal time - option to look on alternatives way (if travel time is similar)

Thank you for tips

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What makes you know there has to be a lot better approach? –  hakre Sep 30 '12 at 21:33
Why not use the A* algorithm? policyalmanac.org/games/aStarTutorial.htm It achieves better performance by using heuristics. –  LanguagesNamedAfterCofee Sep 30 '12 at 21:41
@hakre : because there is a lot of better approach e.g. in TOP30 cities 80% of all bus changes occurs, or algorithm shouldn`t approach routes which goes back to original location ... I will look on A* thanks –  Martin V. Sep 30 '12 at 21:45

3 Answers 3

up vote 5 down vote accepted

Sounds like you're looking for A*. It's a variant of Djikstra's which uses a heuristic to speed up the search. Under certain reasonable assumptions, A* is the fastest optimal algorithm. Just make sure to always break ties towards the endpoint.

There are also variants of A* which can provide near-optimal paths in much shorter time. See for example here and here.

Bellman-Ford (as suggested in your question) tends to be slower than either Djikstra's or A* - it is primarily used when there are negative edge-weights, which there are not here.

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i decided to try GraphHopper open source java lib, thanks –  Martin V. Oct 1 '12 at 0:19

Maybe A* algorithm? See: http://en.wikipedia.org/wiki/A-star_algorithm

Maybe contraction hierarchies? See: http://en.wikipedia.org/wiki/Contraction_hierarchies.

Contraction hierarchies are implemented by the very nice, very fast Open Source Routing Machine (OSRM):


and by OpenTripPlanner:


A* is implemented by a number of routing systems. Just do a search with Google.

OpenTripPlanner is a multi-modal routing system and, as long as I can see, should be very similar to your project.

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OpenTripPlanner a bit overhead for this specific case but it`s good to know it exists, maybe we will use it in the future if it brings benefits to us –  Martin V. Sep 30 '12 at 21:57

The A* algorithm would be great for this; it achieves better performance by using heuristics.

Here is a simple tutorial to get you started: http://www.policyalmanac.org/games/aStarTutorial.htm

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