We study maximal identifiability, a measure recently introduced in Boolean Network Tomography to characterize networks' capability to localize failure nodes in end-to-end path measurements. Under standard assumptions on topologies and on monitors placement, we prove tight upper and lower bounds on the maximal identifiability of failure nodes for specific classes of network topologies, such as trees, bounded-degree graphs, d-dimensional grids, in both directed and undirected cases. Among other results we prove that directed d-dimensional grids with support n have maximal identifiability d using nd monitors; and in the undirected case we show that 2d monitors suffice to get identifiability of d-1. We then study identifiability under embedding...
We look into whether or not it is possible to find the exact location of a broken node in a communic...
The massive growth and proliferation of media, content, and services on the Internet are driving the...
In this paper, we study the problem of selecting paths to improve the performance of network tomogra...
Maximal identifiability was recently introduced in boolean network tomography to measure the maximal...
In this thesis we are concentrating on identifying defective items in larger sets which is a main pr...
Boolean network tomography is a powerful tool to infer the state (working/failed) of individual node...
In this paper we study the node failure identification problem in undirected graphs by means of Bool...
In Boolean Network Tomography (BNT), node identifiability is a crucial property that reflects the po...
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...
Boolean Network Tomography (BNT) allows to localize network failures by means of end-to-end monitori...
We investigate the problem of placing a given number of monitors in a communication network to ident...
Central to network tomography is the problem of identifiability, the ability to identify internal ne...
We investigate the capability of localizing node failures in communication networks from binary stat...
We examine the skill of limiting node failures in communication networks from binary states of end-t...
We look into whether or not it is possible to find the exact location of a broken node in a communic...
The massive growth and proliferation of media, content, and services on the Internet are driving the...
In this paper, we study the problem of selecting paths to improve the performance of network tomogra...
Maximal identifiability was recently introduced in boolean network tomography to measure the maximal...
In this thesis we are concentrating on identifying defective items in larger sets which is a main pr...
Boolean network tomography is a powerful tool to infer the state (working/failed) of individual node...
In this paper we study the node failure identification problem in undirected graphs by means of Bool...
In Boolean Network Tomography (BNT), node identifiability is a crucial property that reflects the po...
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...
Boolean Network Tomography (BNT) allows to localize network failures by means of end-to-end monitori...
We investigate the problem of placing a given number of monitors in a communication network to ident...
Central to network tomography is the problem of identifiability, the ability to identify internal ne...
We investigate the capability of localizing node failures in communication networks from binary stat...
We examine the skill of limiting node failures in communication networks from binary states of end-t...
We look into whether or not it is possible to find the exact location of a broken node in a communic...
The massive growth and proliferation of media, content, and services on the Internet are driving the...
In this paper, we study the problem of selecting paths to improve the performance of network tomogra...