2
votes
1answer
30 views

Which time complexity is faster (V^2 + E) or (E log V)

I have a graph with a large amount of edges to vertices n(n-1)/2. If I have 16 verticies 16^2 + 120 is 376 and 120 * log2(16) is 480. So here V^2 is faster? Is my calculations correct and if they are ...
0
votes
1answer
14 views

Running time for algorithms that solve graph problems

When people talk about algorithms to solve graph problems, which input is taken into account for the running time - the number of vertices, number of edges, both or either? Put differently, could ...
-2
votes
2answers
57 views

minimum sum of two pairs [closed]

Suppose I have a source node S, destination node D and a set A of intermediate nodes (P1, P2, P3, P4, P5) in an edge weighted undirected graph. Now I want to find out two pairs (S, Pi) and (D, Pi) ...
1
vote
1answer
49 views

Is this language in NP?

L={[G, K] | G is a simple undirected graph with no simple path longer than k} (Further, is it Co-NP)? I believe this is NP. I could provide a verifier that did the following: V(G,E, k) is a ...
0
votes
0answers
16 views

Find length of longest trail in directed unweighted graph

I have a directed, unweighted, possibly cyclic graph that can contain loops and multiple duplicate edges (i.e. two edges from node 1 to node 2). I would now like to find the length of the longest ...
0
votes
1answer
125 views

Log-log plot/graph of algorithm time complexity [closed]

I just wrote the quick and merge sort algorithms and I want to make a log-log plot of their run time vs size of array to sort. As I have never done this my question is does it matter if I choose ...
1
vote
1answer
35 views

A variant of the minimum vertex cover

In my research I confront a variant of the vertex cover problem as follows: Given a graph G, a vertex v and a number k, to decide whether G has a vertex cover of size k that contain v. I have ...
0
votes
0answers
65 views

complexity of finding all paths in a undirected graph

Assume that I have an undirected graph, and I want to find all possible paths between two vertices. I know the problem is NP-complete in this case. therefore I use a maximum diameter (or depth) and a ...
0
votes
2answers
245 views

Depth First Search Example

I have a Depth First Search example for a practice exam and I have asked another question regarding it and I think I have some of the concepts of it down... I just want to confirm the results I got ...
0
votes
2answers
294 views

Depth First Search

Perform Depth-first Search on the graph shown starting with vertex a. When you traverse the neighbours, process them in alphabetical order. The question is to find the DFI, Level and the Parent of ...
0
votes
3answers
101 views

Complexity of a tree labeling algorithm

I have a generic weighted tree (undirected graph without cycles, connected) with n nodes and n-1 edges connecting a node to another one. My algorithm does the following: do compute the ...
0
votes
1answer
117 views

complexity of printing all possible paths on a graph

In an undirected, unweighted graph, and I'm trying to print (store in file) all possible connecting paths between given 2 vertices on the graph, not including cycles. when you consider a complete ...
1
vote
0answers
62 views

Anti-chain in a partially ordered set (DAG)

Can anyone tell if there exists a P-time algorithm for finding a anti-chain of size k in a partially ordered set? (or a DAG) All resources I found online deal with finding the maximum anti-chain.
12
votes
5answers
434 views

Check connection between two points on 2D plane

SO, The problem I have a question about algorithm of determining if two points are connected on 2D-plane. I have: Array of 2D-lines. Each line is limited with its start end end 2D-point. Each ...
1
vote
2answers
75 views

Checking if A is a part of binary tree B

Let's say I have binary trees A and B and I want to know if A is a "part" of B. I am not only talking about subtrees. What I want to know is if B has all the nodes and edges that A does. My thoughts ...
0
votes
0answers
15 views

How to effectively find the closest subset in a complete graph?

I have some a set of 6 objects on the surface of a sphere. So, pairs of objects have a defined distance, and the goal is to classify if each set of objects are "closely enough packed" or not. My ...
-1
votes
1answer
109 views

Is it NP hard to find a minimum dominating set containing some desired vertices? [closed]

For a connected undirected graph, G = (V, E) And a desired vertex set D, D is a subset of V (i.e. D \in V) Is it NP-hard to find a minimum dominating set, containing the desired vertex set D?
0
votes
1answer
247 views

Algorithm complexity for minimum number of clique in a graph

I have written an algorithm which solves the minimum number of clique in a graph. I have tested my backtracking algorithm, but I couldn't calculate the worst case time complexity, I have tried a lot ...
0
votes
0answers
39 views

Log-space reduction from EvenURch to Undirected Reachability

URch is: given an undirected graph G, and nodes x,y of G, is there a path from x to y in G? EvenURch is given an undirected graph G, and nodes x,y of G, is there a path of even length(possibly ...
0
votes
1answer
44 views

Edge bi-partitioning, no triangles: complexity?

I've got to find an algorithm to solve a problem for faculty. I'm not requesting solutions (and please don't post any), just read further. The problem's sentence: ** Given a graph G = (V, E) find 2 ...
5
votes
4answers
5k views

Explanation of Algorithm for finding articulation points or cut vertices of a graph

I have searched the net and could not find any explanation of dfs algorithm for finding all articulation vertices of a graph. There is no wiki page even :( From reading around, i got to know basic ...
5
votes
2answers
538 views

How to find all nodes in a graph equidistant from a given set of nodes?

If you have a simple undirected graph G(V,E) and F which is a subset of V. How can you find some node v such that the distance from every node in F to v is the same and the distances are minimized? ...
0
votes
2answers
211 views

BFS performance in searching shortest path

There is a graph with up to 10 000 nodes and each node can have up to 4 adjacent nodes. Graph is unweighted and undirected. Task is to find shortest path from node A to node B. The path length is ...
19
votes
2answers
1k views

Directed maximum weighted bipartite matching allowing sharing of start/end vertices

Let G (U u V, E) be a weighted directed bipartite graph (i.e. U and V are the two sets of nodes of the bipartite graph and E contains directed weighted edges from U to V or from V to U). Here is an ...
0
votes
1answer
503 views

Maximum weighted bipartite matching _with_ directed edges

I know various algorithms to compute the maximum weighted matching of weighted, undirected bipartite graphs (i.e. the assignment problem): For instance ... The Hungarian Algorithm, Bellman-Ford or ...
3
votes
2answers
346 views

Finding a shortest path in a graph with node and edge weights?

Let's say I have a weighted graph with weights on both edges and vertices. How do I find the "cheapest" path from a certain node s to a certain node t? My complexity should be O(n2(n+m)).
1
vote
1answer
161 views

Finding Path in graph( specific Length)

we are looking for an algorithm, that can find a path in a undirected weighted graph (from 's' to 't' for instance), that the total weights of all it's edges is a fixed number ('m' for instance) ...
4
votes
1answer
217 views

Finding paths in undirected graph with specific cost

Suppose we have undirected, weighted graph. Our task is to find all paths beetween two vertices (source and destination) which total cost equal = N. I think it can be done with modified Dijkstra's ...
0
votes
1answer
265 views

Finding the nearest (geometrically) non-zero value in a map/2d array

I have a 2-dimensional array representing selective data from a picture. All the uninteresting data is set to 0. From two indices, I need to find the closest value - geometrically- that is not 0 to ...
1
vote
2answers
113 views

what is the complexity of accessing a node in a graph generated by neo4j?

I consider working with dbpedia and use neo4j for this purpose. I have 2 things I don't understand: What is the complexity of accessing a node in the graph? If I have a huge DB such as dbpedia any ...
1
vote
0answers
62 views

Minimizing space usage by moving sets on a graph

I have a complete directional graph. On each edge there is a set of numbers. The set is saved on the source node by default. Note that each number is saved only ONCE. For example, if a node has two ...
3
votes
1answer
238 views

Finding the best subgraph

I am trying to solve the following problem: Given a connected graph G = (V, E) and a vertex t ∈ V, I need to find a subgraph G'= (V', E ') where t ∈ V'. G' should maximize some objective function ...
3
votes
3answers
446 views

Is there any difference in time complexity for mean shortest path length and diameter algorithms for a graph?

For an undirected, unweighted graph, is there any difference in the time complexity of the algorithm to compute its average shortest path length vs, the complexity of the algorithm which computes the ...
0
votes
1answer
1k views

Time complexity of betweenness centrality?

What is the time complexity of computing betweenness centrality if we are given the shortest path predecessor matrix of a graph? Predecessor matrix cells look like this: if node i and node j are ...
0
votes
2answers
508 views

Algorithm for finding optimal node pairs in hexagonal graph

I'm searching for an algorithm to find pairs of adjacent nodes on a hexagonal (honeycomb) graph that minimizes a cost function. each node is connected to three adjacent nodes each node "i" should ...
1
vote
1answer
1k views

efficient algorithm for loop identification in a directed graph? [duplicate]

Possible Duplicate: Best algorithm for detecting cycles in a directed graph I'm searching for an algorithm to find loops in a directed graph. My graph has labels only in the nodes, not in ...
4
votes
2answers
2k views

Finding 'bottleneck edges' in a graph

Given a random unidirected graph, I must find 'bottleneck edges' to get from one vertex to another. What I call 'bottleneck edges' (there must be a better name for that!) -- suppose I have the ...
8
votes
2answers
2k views

Fast algorithm for counting the number of acyclic paths on a directed graph

In short, I need a fast algorithm to count how many acyclic paths are there in a simple directed graph. By simple graph I mean one without self loops or multiple edges. A path can start from any node ...
3
votes
2answers
519 views

Novel or lesser known data structures for network (graph) data?

What are some more interesting graph data structures for working with networks? I am interested in structures which may offer some particular advantage in terms of traversing the network, finding ...
6
votes
2answers
1k views

C Directed Graph Implementation Choice

Welcome mon amie, In some homework of mine, I feel the need to use the Graph ADT. However, I'd like to have it, how do I say, generic. That is to say, I want to store in it whatever I fancy. The ...
2
votes
0answers
91 views

Complexity of existence of m-cycle in planar graph with n nodes

G is a planar graph with n nodes. What are the complexity of following problems? A: Does G contain a m-cycle? (m-cycle is a simple cycle with m nodes, m B: complexity of counting all m-cycles in G. ...
1
vote
1answer
55 views

Complexity of existance a weighted cycle

Assume weighted Graph G, vertices and edges are weighted, and given constant k, what is the complexity of following decision problem A? 1-A: Dose G contane cycle with total weight K? 2- what is ...
2
votes
2answers
180 views

Is there an algorithm to find the best set of Pairs of vertices in a weighted graph without repetition?

Is there any efficient algorithm to find the set of edges with the following properties, in a complete weighted graph with an even number of vertices. the set has the smallest, maximum edge weight ...
5
votes
1answer
143 views

Selecting k sub-posets

I ran into the following algorithmic problem while experimenting with classification algorithms. Elements are classified into a polyhierarchy, what I understand to be a poset with a single root. I ...
10
votes
3answers
4k views

Why is the complexity of A* exponential in memory?

Wikipedia says on A* complexity the following (link here): More problematic than its time complexity is A*’s memory usage. In the worst case, it must also remember an exponential number of ...