2014
DOI: 10.5815/ijitcs.2014.03.04
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Robustness Analysis of Layered Public Transport Networks Due to Edge Overload Breakdown

Abstract: Abstract-The robustness of urban bus-transport networks has important influence on the network performance. This paper proposes the model of layered public bus-transport network which is composed of the logical layer and the physical layer and expounds the relationship between these two layers. We map the bustransport network into two spaces: space P and space L and take space P as logical layer while space L as physical layer. We define the load of edges in the physical layer according to the traffic flow in … Show more

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Cited by 11 publications
(7 citation statements)
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“…However this work considers a sudden failure in a node of the infrastructure of the network and proposes a methodology to determine the vulnerability of a system and to calculate the cost of the consequences. Besides physical damage, overload can also break the network [25]. To deal with this situation, two network models can be combined: one network that contains edges modeling the routes of the buses, and another, in which two nodes are connected if a bus between the involved bus stops exists.…”
Section: Transport Network and Complex Network Analysismentioning
confidence: 99%
“…However this work considers a sudden failure in a node of the infrastructure of the network and proposes a methodology to determine the vulnerability of a system and to calculate the cost of the consequences. Besides physical damage, overload can also break the network [25]. To deal with this situation, two network models can be combined: one network that contains edges modeling the routes of the buses, and another, in which two nodes are connected if a bus between the involved bus stops exists.…”
Section: Transport Network and Complex Network Analysismentioning
confidence: 99%
“…The number of nodes in each layer network is the same and corresponds to one another, such as an interdependent PTN combined by the public transit geographical network layer and the public transit transfer network layer. (see the detailed process in the works of Dong et al [70], Zhang et al [71], etc.) (ii) The other one is that the study objects are two types of PTNs (e.g., BTN and URTN).…”
Section: Complexitymentioning
confidence: 99%
“…Load on an edge in physical layer can be seen as the passenger flows traverse over it. [35] Considering economic limitation, capacities of routes are also considered. Following Motter-Lai model, [30] the capacities of an edge C i j in physical layer are defined as…”
Section: Initializing Of Load and Capacitymentioning
confidence: 99%
“…[34] In fact, PTS are complex systems with layered structure, and these coexisting topologies interact and depend on each other. [35] On the other hand, PTS have loads which present the transmitting capabilities on each nodes or links and change dynamically. [35] So in this paper, we analyse the robustness of urban bus network in both static invulnerability and dynamic cascade failures and choose the Shenyang city (one of the biggest cities in China) as the simulation example throughout the paper.…”
Section: Introductionmentioning
confidence: 99%
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