Add to ORKGWe define the beta diffusion tree, a random tree structure with a set of leaves that defines a collection of overlapping subsets of objects, known as a feature allocation. The generative process for the tree is defined in terms of particles (representing the objects) diffusing in some continuous space, analogously to the Dirichlet and Pitman-Yor diffusion trees (Neal, 2003b; Knowles & Ghahramani, 2011), both of which define tree structures over clusters of the particles. With the beta diffusion tree, however, multiple copies of a particle may exist and diffuse to multiple locations in the continuous space, resulting in (a random number of) possibly overlapping clusters of the objects. We demonstrate how to build a hierarchically-clustered f...
Coalescents with multiple collisions, also known as A-coalescents, were introduced by Pitman and Sag...
We study an aggregation process which gives rise to compact clusters with no loops. A generalization...
The probability that a random walker returns to its origin for large times scales as t- d/2, where d...
We define the beta diffusion tree, a random tree structure with a set of leaves that defines a colle...
We define the beta diffusion tree, a random tree structure with a set of leaves that defines a colle...
We define the beta diffusion tree, a random tree structure with a set of leaves that defines a colle...
We introduce the Pitman Yor Diffusion Tree (PYDT) for hierarchical clustering, a generalization of t...
In this paper we introduce the Pitman Yor Diffusion Tree (PYDT), a Bayesian non-parametric prior ove...
Abstract—In this paper we introduce the Pitman Yor Diffusion Tree (PYDT), a Bayesian non-parametric ...
Consider a binary tree with n labeled leaves. Randomly select a leaf for removal and then reinsert i...
We demonstrate efficient approximate infer-ence for the Dirichlet Diffusion Tree (Neal, 2003), a Bay...
We consider a Feller diffusion (Zs, s ≥ 0) (with diffusion coefficient √ 2β and drift θ ∈ R) that we...
The goal of these lectures is to review some mathematical aspects of random tree models used in evol...
<p><b>a</b>, a real instance of information diffusion. An illustration of a diffusion tree containin...
We dedicate this paper to Sir John Kingman on his 70th Birthday. In modern mathematical population g...
Coalescents with multiple collisions, also known as A-coalescents, were introduced by Pitman and Sag...
We study an aggregation process which gives rise to compact clusters with no loops. A generalization...
The probability that a random walker returns to its origin for large times scales as t- d/2, where d...
We define the beta diffusion tree, a random tree structure with a set of leaves that defines a colle...
We define the beta diffusion tree, a random tree structure with a set of leaves that defines a colle...
We define the beta diffusion tree, a random tree structure with a set of leaves that defines a colle...
We introduce the Pitman Yor Diffusion Tree (PYDT) for hierarchical clustering, a generalization of t...
In this paper we introduce the Pitman Yor Diffusion Tree (PYDT), a Bayesian non-parametric prior ove...
Abstract—In this paper we introduce the Pitman Yor Diffusion Tree (PYDT), a Bayesian non-parametric ...
Consider a binary tree with n labeled leaves. Randomly select a leaf for removal and then reinsert i...
We demonstrate efficient approximate infer-ence for the Dirichlet Diffusion Tree (Neal, 2003), a Bay...
We consider a Feller diffusion (Zs, s ≥ 0) (with diffusion coefficient √ 2β and drift θ ∈ R) that we...
The goal of these lectures is to review some mathematical aspects of random tree models used in evol...
<p><b>a</b>, a real instance of information diffusion. An illustration of a diffusion tree containin...
We dedicate this paper to Sir John Kingman on his 70th Birthday. In modern mathematical population g...
Coalescents with multiple collisions, also known as A-coalescents, were introduced by Pitman and Sag...
We study an aggregation process which gives rise to compact clusters with no loops. A generalization...
The probability that a random walker returns to its origin for large times scales as t- d/2, where d...