An M/M/c/K State-Dependent Model for Pedestrian Flow Control and Design of Facilities: e0133229

An M/M/c/K State-Dependent Model for Pedestrian Flow Control and Design of Facilities: e0133229

Pedestrian overflow causes queuing delay and in turn, is controlled by the capacity of a facility. Flow control or blocking control takes action to avoid queues from building up to extreme values. Thus, in this paper, the problem of pedestrian flow control in open outdoor walking facilities in equil...

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Veröffentlicht in:PloS one 2015-07, Vol.10 (7)
Hauptverfasser: Rahman, Khalidur, Ghani, Noraida Abdul, Kamil, Anton Abdulbasah, Mustafa, Adli, Chowdhury, Ahmed Kabir
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creator Rahman, Khalidur
Ghani, Noraida Abdul
Kamil, Anton Abdulbasah
Mustafa, Adli
Chowdhury, Ahmed Kabir
description Pedestrian overflow causes queuing delay and in turn, is controlled by the capacity of a facility. Flow control or blocking control takes action to avoid queues from building up to extreme values. Thus, in this paper, the problem of pedestrian flow control in open outdoor walking facilities in equilibrium condition is investigated using M/M/c/K queuing models. State dependent service rate based on speed and density relationship is utilized. The effective rate of the Poisson arrival process to the facility is determined so as there is no overflow of pedestrians. In addition, the use of the state dependent queuing models to the design of the facilities and the effect of pedestrian personal capacity on the design and the traffic congestion are discussed. The study does not validate the sustainability of adaptation of Western design codes for the pedestrian facilities in the countries like Bangladesh.
doi_str_mv 10.1371/journal.pone.0133229
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title An M/M/c/K State-Dependent Model for Pedestrian Flow Control and Design of Facilities: e0133229
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