# Relational Topic Models

## Modeling Sparsity

In an undirected setting, let us consider having chosen z_ij and z_ji and then selecting the response according to r_ij ~ Bernoulli(\eta_{z_ij, z_ji}). In modeling sparsity, we assume that we draw another hidden variable say y_ij ~ Bernoulli(\eta_{z_ij, z_ji}). And then draw r_ij ~ Bernoulli(\rho) if y_ij = 1 and r_ij ~ \delta(0) otherwise.

## Choosing the sparsity parameter

On the senate dataset, running spectral clustering for various values of K gives the following:

K | False positives | False negatives |
---|---|---|

5 | .606 | .058 |

10 | .354 | .078 |

15 | .126 | .078 |

20 | .193 | .094 |

25 | .157 | .107 |

30 | .135 | .114 |

Even with 30 topics, this would imply that we're not seeing at least around 15% of true links. Since spectral clustering is likely to be overfitting in this case, a reasonable compromise between all the K might be 25%. Although, since for this dataset we'd expect the true K to be small, 50% might be a better estimate.

--Jcone 18:27, 7 April 2008 (EDT)