# Machine Learning/Kaggle Social Network Contest/Network Description

(→Conectivity: effect of adding test data on clusters) |
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Is it more likely that clusters were created by removing nodes or that they merged due to randomly adding nodes? | Is it more likely that clusters were created by removing nodes or that they merged due to randomly adding nodes? | ||

− | * TODO figure out probs of adding and removing nodes under different sampling hypotheses. | + | * TODO: figure out probs of adding and removing nodes under different sampling hypotheses. |

+ | * TODO: identify the edges which are merging the clusters | ||

* I'm guessing that the chances of a randomly generated edge joins the small clusters is very low. | * I'm guessing that the chances of a randomly generated edge joins the small clusters is very low. | ||

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*** sum([http://cneurocvs.rmki.kfki.hu/igraph/doc/R/neighborhood.html neighborhood.size](dg, 1, nodes=myGuys, mode="out")) | *** sum([http://cneurocvs.rmki.kfki.hu/igraph/doc/R/neighborhood.html neighborhood.size](dg, 1, nodes=myGuys, mode="out")) | ||

*** mode = "in", "out" or "all" | *** mode = "in", "out" or "all" | ||

+ | |||

+ | ==How the test set was created == | ||

+ | The test set seems to have been generated by randomly picking out nodes from the the outnode column and in nodes from the in node column. ie Not just randomly creating edges between any nodes. | ||

+ | * All test out nodes are in the training out node column | ||

+ | * All but 13 test in nodes are in the training in node column |

## Latest revision as of 19:19, 8 December 2010

Here we can put the descriptive statistics of the network:

- Number of fully sampled nodes: 37,689
- ie the unique "outnodes" in the edge list

- Total number of nodes: 1,133,547
- number of edges: 7,237,983

## [edit] Conectivity

"A digraph is strongly connected if every vertex is reachable from every other following the directions of the arcs. On the contrary, a digraph is weakly connected if its underlying undirected graph is connected. A weakly connected graph can be thought of as a digraph in which every vertex is "reachable" from every other but not necessarily following the directions of the arcs. A strong orientation is an orientation that produces a strongly connected digraph." wikipedia

- The Training Graph is
**not**weakly connected - It contains 27 subgraphs This means that it can be broken down into at least two discrete subgraphs.
- c.f. igraph clustering
- There is one very large cluster containing all but 154 verticies, then 4 with size 10 - 37, 8 sized 3 - 7 and 13 size 2
- note that igraph seems to create a vertex labelled 0 but the labels in the traindata file range from 1 to 1133547

- I also grabbed the number of strongly connected subgraphs

Cluster Size | 1 | 2 | 3 | 4 | 5 | 9 | 10 | 32464 |
---|---|---|---|---|---|---|---|---|

freq | 1100647 | 162 | 18 | 5 | 4 | 1 | 1 | 1 |

When I added all of the test data to the graph and then re-ran the cluster analysis it found 22 clusters instead of 27. The largest cluster grew by 72 vertices.

Cluster Size | 1 | 2 | 3 | 4 | 5 | 7 | 10 | 23 | 37 | 1133394 | 1133466 |
---|---|---|---|---|---|---|---|---|---|---|---|

Train | 1 | 13 | 3 | 2 | 2 | 1 | 1 | 2 | 1 | 1 | 0 |

Train + Test | 1 | 13 | 2 | 1 | 1 | 1 | 1 | 1 | 0 | 0 | 1 |

Is it more likely that clusters were created by removing nodes or that they merged due to randomly adding nodes?

- TODO: figure out probs of adding and removing nodes under different sampling hypotheses.
- TODO: identify the edges which are merging the clusters
- I'm guessing that the chances of a randomly generated edge joins the small clusters is very low.

- Diameter of the directed graph is 14
- This is the longest of the shortest directed paths between two nodes
- R igraph
- diameter (dg, directed = TRUE, unconnected = TRUE)
- Was taking forever so I aborted (after 34 minutes...)

- Total number of direct neighbours out: 7 275 672, in: 508 688, all: 7 473 273
- For each of our 38k I calculated the number of outbound neighbours and summed it
- R igraph:
- sum(neighborhood.size(dg, 1, nodes=myGuys, mode="out"))
- mode = "in", "out" or "all"

## [edit] How the test set was created

The test set seems to have been generated by randomly picking out nodes from the the outnode column and in nodes from the in node column. ie Not just randomly creating edges between any nodes.

- All test out nodes are in the training out node column
- All but 13 test in nodes are in the training in node column