One of the most critical issues in the evaluation of power systems is the identification of critical buses. For this purpose, this paper proposes a new methodology that evaluates the substitution of the power flow technique by the geodesic vulnerability index to identify critical nodes in power grids. Both methods are applied comparatively to demonstrate the scope of the proposed approach. The applicability of the methodology is illustrated using the IEEE 118-bus test system as a case study. To identify the critical components, a node is initially disconnected, and the performance of the resulting topology is evaluated in the face of simulations for multiple cascading faults. Cascading events are simulated by randomly removing assets on a s...
Power grids are generally regarded as very reliable systems, nevertheless outages and electricity sh...
Abstract: Introduction of new operation enhancement technologies plus increasing application of powe...
This paper proposes a maximum-flow-based complex network approach for the analysis of the vulnerabil...
Power systems as critical infrastructure are an integral part of human society and are therefore of ...
This paper proposes a new method for assessing the vulnerability of power systems based on the contr...
Cascading failures are the typical reasons of blackouts in power grids. The grid topology plays an i...
The occurrence of impact events (e.g. blackouts with vast geographic coverage) into electrical criti...
This paper presents a complex systems overview of a power grid network. In recent years, concerns a...
The study of networks is an extensively investigated field of research, with networks and network st...
The vulnerability of electrical systems is one of the problems related to their complexity. It has r...
Power system vulnerability is a key concern in modern societies and many efforts have been devoted t...
The occurrence of impact events (e.g. blackouts with vast geographic coverage) into electrical criti...
To reduce the vulnerability of power grids to high impact low probability (HILP) events, analysis me...
The first contribution of this dissertation is the use of complex network theory for the vulnerabili...
Abstract: Voltage collapse is a major issue combating the effectiveness and optimal operation of mod...
Power grids are generally regarded as very reliable systems, nevertheless outages and electricity sh...
Abstract: Introduction of new operation enhancement technologies plus increasing application of powe...
This paper proposes a maximum-flow-based complex network approach for the analysis of the vulnerabil...
Power systems as critical infrastructure are an integral part of human society and are therefore of ...
This paper proposes a new method for assessing the vulnerability of power systems based on the contr...
Cascading failures are the typical reasons of blackouts in power grids. The grid topology plays an i...
The occurrence of impact events (e.g. blackouts with vast geographic coverage) into electrical criti...
This paper presents a complex systems overview of a power grid network. In recent years, concerns a...
The study of networks is an extensively investigated field of research, with networks and network st...
The vulnerability of electrical systems is one of the problems related to their complexity. It has r...
Power system vulnerability is a key concern in modern societies and many efforts have been devoted t...
The occurrence of impact events (e.g. blackouts with vast geographic coverage) into electrical criti...
To reduce the vulnerability of power grids to high impact low probability (HILP) events, analysis me...
The first contribution of this dissertation is the use of complex network theory for the vulnerabili...
Abstract: Voltage collapse is a major issue combating the effectiveness and optimal operation of mod...
Power grids are generally regarded as very reliable systems, nevertheless outages and electricity sh...
Abstract: Introduction of new operation enhancement technologies plus increasing application of powe...
This paper proposes a maximum-flow-based complex network approach for the analysis of the vulnerabil...