Network propagation is a powerful transformation that amplifies signal-to-noise ratio in biological and other data. To date, most of its applications in the biological domain employed standard techniques for its computation that require O(m) time for a network with n vertices and m edges. When applied in a dynamic setting where the network is constantly modified, the cost of these computations becomes prohibitive. Here we study, for the first time in the biological context, the complexity of dynamic algorithms for network propagation. We develop a vertex decremental algorithm that is motivated by various biological applications and can maintain propagation scores over general weights at an amortized cost of O(m/(n^{1/4})) per update. In app...
This thesis is a contribution to a deeper understanding of how information propagates and what this ...
High-throughput experimental protocols have revealed thousands of relationships amongst genes and pr...
Applications such as neuroscience, telecommunication, on-line social networking, transport and retai...
Abstract: We present two efficient network propagation algorithms that operate on a binary tree, i.e...
There is a growing interest in the study of graphs that evolve over time. Communication networks, pe...
A recent flooding algorithm [1] guaranteed correctness for networks with dynamic edges and fixed no...
We study here systems of distributed entities that can actively modify their communication network. ...
Abstract. This article studies approximate distributed routing schemes on dynamic communication netw...
While the evolution of biological networks can be modeled sensefully as a series of mutation and sel...
We consider the problem of network completion, which is to make the minimum amount of modifications ...
License, which permits unrestricted use, distribution, and reproduction in any medium, provided the ...
We study a new algorithmic process of graph growth which starts from a single initial vertex and ope...
Copyright © 2012 Natsu Nakajima et al. This is an open access article distributed under the Creative...
Network performance is determined by the interplay of underlying structures and overlying dynamic pr...
Applications such as neuroscience, telecommunication, online social networking, transport and retai...
This thesis is a contribution to a deeper understanding of how information propagates and what this ...
High-throughput experimental protocols have revealed thousands of relationships amongst genes and pr...
Applications such as neuroscience, telecommunication, on-line social networking, transport and retai...
Abstract: We present two efficient network propagation algorithms that operate on a binary tree, i.e...
There is a growing interest in the study of graphs that evolve over time. Communication networks, pe...
A recent flooding algorithm [1] guaranteed correctness for networks with dynamic edges and fixed no...
We study here systems of distributed entities that can actively modify their communication network. ...
Abstract. This article studies approximate distributed routing schemes on dynamic communication netw...
While the evolution of biological networks can be modeled sensefully as a series of mutation and sel...
We consider the problem of network completion, which is to make the minimum amount of modifications ...
License, which permits unrestricted use, distribution, and reproduction in any medium, provided the ...
We study a new algorithmic process of graph growth which starts from a single initial vertex and ope...
Copyright © 2012 Natsu Nakajima et al. This is an open access article distributed under the Creative...
Network performance is determined by the interplay of underlying structures and overlying dynamic pr...
Applications such as neuroscience, telecommunication, online social networking, transport and retai...
This thesis is a contribution to a deeper understanding of how information propagates and what this ...
High-throughput experimental protocols have revealed thousands of relationships amongst genes and pr...
Applications such as neuroscience, telecommunication, on-line social networking, transport and retai...