Stochastic analyses of the Survivability of communication networks often include a simplifying assumption that failures of, or damages to, various components of the network are statistically independent. This assumption can be quite unrealistic and can lead one to conclusions that are grossly in error. Survivability analyses and syntheses of robust networks should incorporate dependencies introduced by single events that affect large geographical areas. In this paper, we construct a stochastic damage model, analyze it, and apply the results to the survivability analysis of some simple network topologies. We demonstrate how the results can differ significantly from those obtained when independence of damage is assumed. The damage model consi...
Hub and spoke networks, while highly efficient, are fragile to targeted attacks: removal of the cent...
We reveal large fluctuations in the response of real multiplex networks to random damage of nodes. T...
Estimating the critical points at which complex systems abruptly flip from one state to another is o...
In this thesis, we develop a novel stochastic modeling approach based on multiple interdependent top...
Network design and operation of a mobile network infrastructure, especially its base stations, need ...
In order to evaluate the expected availability of a service, a network administrator should consider...
The communication network is now one of the critical infrastructures in our society. However, the cu...
Communication/transportation systems are often subjected to failures and attacks. Here we represent ...
Our society is heavily dependent on a wide variety of communication services. These services must be...
When looking at security incidents in Industrial Control System (ICS) networks, it appears that the ...
Network survivability re ects the ability of a network to con-tinue to function during and after fai...
Networks are typically embedded in non-homogeneous areas and different parts/regions of the network ...
In this paper, we propose a general survivability quantification framework which is applicable to a ...
Our society nowadays is governed by complex networks, examples being the power grids, telecommunicat...
Fiber-optic networks are vulnerable to natural disasters, such as tornadoes or earthquakes, as well ...
Hub and spoke networks, while highly efficient, are fragile to targeted attacks: removal of the cent...
We reveal large fluctuations in the response of real multiplex networks to random damage of nodes. T...
Estimating the critical points at which complex systems abruptly flip from one state to another is o...
In this thesis, we develop a novel stochastic modeling approach based on multiple interdependent top...
Network design and operation of a mobile network infrastructure, especially its base stations, need ...
In order to evaluate the expected availability of a service, a network administrator should consider...
The communication network is now one of the critical infrastructures in our society. However, the cu...
Communication/transportation systems are often subjected to failures and attacks. Here we represent ...
Our society is heavily dependent on a wide variety of communication services. These services must be...
When looking at security incidents in Industrial Control System (ICS) networks, it appears that the ...
Network survivability re ects the ability of a network to con-tinue to function during and after fai...
Networks are typically embedded in non-homogeneous areas and different parts/regions of the network ...
In this paper, we propose a general survivability quantification framework which is applicable to a ...
Our society nowadays is governed by complex networks, examples being the power grids, telecommunicat...
Fiber-optic networks are vulnerable to natural disasters, such as tornadoes or earthquakes, as well ...
Hub and spoke networks, while highly efficient, are fragile to targeted attacks: removal of the cent...
We reveal large fluctuations in the response of real multiplex networks to random damage of nodes. T...
Estimating the critical points at which complex systems abruptly flip from one state to another is o...