In this paper we study the node failure identification problem in undirected graphs by means of Boolean Network Tomography. We argue that vertex connectivity plays a central role. We show tight bounds on the maximal identifiability in a particular class of graphs, the Line of Sight networks. We prove slightly weaker bounds on arbitrary networks. Finally we initiate the study of maximal identifiability in random networks. We focus on two models: the classical Erdős-Rényi model, and that of Random Regular graphs. The framework proposed in the paper allows a probabilistic analysis of the identifiability in random networks giving a tradeoff between the number of monitors to place and the maximal identifiability
This work considers a diffusion network responding to streaming data, and studies the problem of ide...
We consider a model for monitoring the connectivity of a network subject to node or edge failures. I...
We examine the skill of limiting node failures in communication networks from binary states of end-t...
We study maximal identifiability, a measure recently introduced in Boolean Network Tomography to cha...
Boolean network tomography is a powerful tool to infer the state (working/failed) of individual node...
In this thesis we are concentrating on identifying defective items in larger sets which is a main pr...
Maximal identifiability was recently introduced in boolean network tomography to measure the maximal...
In Boolean Network Tomography (BNT), node identifiability is a crucial property that reflects the po...
Boolean Network Tomography (BNT) allows to localize network failures by means of end-to-end monitori...
Boolean network tomography is a powerful tool to infer the state (working/failed) of individual node...
We investigate the problem of localizing node failures in a communication network from end-to-end pa...
Central to network tomography is the problem of identifiability, the ability to identify internal ne...
We investigate the problem of placing a given number of monitors in a communication network to ident...
The massive growth and proliferation of media, content, and services on the Internet are driving the...
Passive network tomography uses end-to-end observations of network communication to characterize the...
This work considers a diffusion network responding to streaming data, and studies the problem of ide...
We consider a model for monitoring the connectivity of a network subject to node or edge failures. I...
We examine the skill of limiting node failures in communication networks from binary states of end-t...
We study maximal identifiability, a measure recently introduced in Boolean Network Tomography to cha...
Boolean network tomography is a powerful tool to infer the state (working/failed) of individual node...
In this thesis we are concentrating on identifying defective items in larger sets which is a main pr...
Maximal identifiability was recently introduced in boolean network tomography to measure the maximal...
In Boolean Network Tomography (BNT), node identifiability is a crucial property that reflects the po...
Boolean Network Tomography (BNT) allows to localize network failures by means of end-to-end monitori...
Boolean network tomography is a powerful tool to infer the state (working/failed) of individual node...
We investigate the problem of localizing node failures in a communication network from end-to-end pa...
Central to network tomography is the problem of identifiability, the ability to identify internal ne...
We investigate the problem of placing a given number of monitors in a communication network to ident...
The massive growth and proliferation of media, content, and services on the Internet are driving the...
Passive network tomography uses end-to-end observations of network communication to characterize the...
This work considers a diffusion network responding to streaming data, and studies the problem of ide...
We consider a model for monitoring the connectivity of a network subject to node or edge failures. I...
We examine the skill of limiting node failures in communication networks from binary states of end-t...