Abstract—We consider a network topology design problem in which an initial undirected graph underlying the network is given and the objective is to select a set of edges to add to the graph to optimize the coherence of the resulting network. We show that network coherence is a submodular function of the network topology. As a consequence, a simple greedy algorithm is guaranteed to produce near optimal edge set selections. We also show that fast rank one updates of the Laplacian pseudoinverse using generalizations of the Sherman-Morrison formula and an accelerated variant of the greedy algorithm can speed up the algorithm by several orders of magnitude in practice. These allow our algorithms to scale to network sizes far beyond those that ca...
We consider network structures that optimize the H2 norm of weighted, time scaled consensus networks...
Given an undirected graph, we consider the two problems of combinatorial optimization, which ask tha...
Presented on November 18, 2019 at 11:00 a.m. in the Klaus Advanced Computing Building, Room 1116E.Yu...
Network design and optimisation has been one of the major focuses of the research community over the...
We design exact algorithms for the following two problems in survivable network design: (i) designin...
Networks (or graphs) are a powerful tool to model complex systems such as social networks, transport...
The survivable network design problem is to construct a minimum-cost subgraph satisfying certain giv...
Since network topological design has been shown to be NP-hard, we turn to heuristics for solution. H...
The problem of searchability in decentralized complex networks is of great importance in computer sc...
AbstractThe betweenness is a well-known measure of centrality of a node in a network. We consider th...
Abstract—In this paper, we examine optimization-based methods for designing the network topology whe...
Many distributed optimization algorithms achieve existentially-optimal running times, meaning that t...
Many complex systems can be described in terms of networks of interacting units. Recent studies have...
In this paper we study the reconstruction of a network topology from the values of its betweenness c...
We consider an application of combinatorial search to the optimization of topologies in series-paral...
We consider network structures that optimize the H2 norm of weighted, time scaled consensus networks...
Given an undirected graph, we consider the two problems of combinatorial optimization, which ask tha...
Presented on November 18, 2019 at 11:00 a.m. in the Klaus Advanced Computing Building, Room 1116E.Yu...
Network design and optimisation has been one of the major focuses of the research community over the...
We design exact algorithms for the following two problems in survivable network design: (i) designin...
Networks (or graphs) are a powerful tool to model complex systems such as social networks, transport...
The survivable network design problem is to construct a minimum-cost subgraph satisfying certain giv...
Since network topological design has been shown to be NP-hard, we turn to heuristics for solution. H...
The problem of searchability in decentralized complex networks is of great importance in computer sc...
AbstractThe betweenness is a well-known measure of centrality of a node in a network. We consider th...
Abstract—In this paper, we examine optimization-based methods for designing the network topology whe...
Many distributed optimization algorithms achieve existentially-optimal running times, meaning that t...
Many complex systems can be described in terms of networks of interacting units. Recent studies have...
In this paper we study the reconstruction of a network topology from the values of its betweenness c...
We consider an application of combinatorial search to the optimization of topologies in series-paral...
We consider network structures that optimize the H2 norm of weighted, time scaled consensus networks...
Given an undirected graph, we consider the two problems of combinatorial optimization, which ask tha...
Presented on November 18, 2019 at 11:00 a.m. in the Klaus Advanced Computing Building, Room 1116E.Yu...