optimization routes, dijkstra algorithm, Biograph,
3 vues (au cours des 30 derniers jours)
Afficher commentaires plus anciens
Hi, when I try to use the dijkstra algorithm to optimization route, always it asks me the segments from the nodes, what happens if I do not know them, because I trying to get the optmization route of an image.
by the way, I do not understand the CMatrix relationship with the real image on the biograph function.
somebody know how to implement that in simulink???
0 commentaires
Réponse acceptée
Walter Roberson
le 10 Août 2012
You need to somehow figure out what the node connections are from the image. The difficulty of doing that will depend on how you create your "nodes" out of the image.
2 commentaires
Walter Roberson
le 13 Août 2012
Show us an image and point out the parts of it that you want to have considered as being nodes.
(My guess is that you are trying to implement robotic navigation with an array of square tiles, but that is speculation on my part.)
Image Analyst
le 14 Août 2012
You can find lots of information if you drill down through the links here: http://en.wikipedia.org/wiki/Pathfinding For example, see the right hand panel on the A* page. I've always wanted to try some of the fancy variants but for most cases A* works so well that I've never needed to.
Plus de réponses (1)
Image Analyst
le 13 Août 2012
I don't know what a biograph is - apparently according to Google images, it's a celebrity, a theater, or a Bob Dylan album. But if you're trying to find some route through an image, like for example you're following a blood vessel in a radiograph, then the nodes are the pixels. You can do something like find the path from one place to another that has the brightest average gray level (I did this using the A* algorithm as part of my Ph.D.). The Djikstra algorithm has been improved upon many many times so you might want to look into better algorithms. Wikipedia has a huge list of them.
4 commentaires
Image Analyst
le 14 Août 2012
Right, good points. If I recall correctly, in my case, each node had an x (column) position, a y (row, line) position, and a value (gray level). And as you traversed the graph (image), each length was either 1 (up, down, left, right) or sqrt(2) (diagonal travel). And yes the cost function can be specified in a number of ways, some of which could get very complicated, depending on what you want to do.
Walter Roberson
le 22 Août 2012
Show us an image and point out the parts of it that you want to have considered as being nodes.
Voir également
Catégories
En savoir plus sur Dijkstra algorithm dans Help Center et File Exchange
Produits
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!