Iisakki Kosonen scite author profile

In order to investigate collective effects of interactions between pedestrians and attractions, this study extends the social force model. Such interactions lead pedestrians to form stable clusters around attractions, or even to rush into attractions if the interaction becomes stronger. It is also found that for high pedestrian density and intermediate interaction strength, some pedestrians rush into attractions while others move to neighboring attractions. These collective patterns of pedestrian movements or phases and transitions between them are systematically presented in a phase diagram. The results suggest that safe and efficient use of pedestrian areas can be achieved by moderating the pedestrian density and the strength of attractive interaction, for example, in order to avoid situations involving extreme desire for limited resources.

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An intelligent control system for traffic lights with simulation-based evaluation

Jin

Kosonen

2017

Control Engineering Practice

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An intelligent control system for traffic lights with simulation-based evaluation. Practice, https://doi.org/10. 1016/j.conengprac.2016.09.009 Access to the published version may require subscription. N.B. When citing this work, cite the original published paper. In order to evaluate the effects of FITS system, this study attempts to develop a computational framework to evaluate FITS system using microscopic traffic simulation. A case study is carried out, comparing different commonly used signal control strategies with the FITS control approach. The simulation results show that the control system has the potential to improve traffic mobility, compared to all of the tested signal control strategies, due to its ability in generating flexible phase structures and making intelligent timing decisions. In addition, the effects of detector malfunction are also investigated in this study. The experiment results show that FITS exhibits superior performance than several other controllers when a few detectors are out-of-order due to its self-diagnostics feature. Control Engineering

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Map updating and change detection using vehicle-based laser scanning

Hyyppä

Jaakkola

Hyyppä³

et al. 2009

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Tutorial: Road Lighting for Efficient and Safe Traffic Environments

Tetri

Chenani

Räsänen

et al. 2017

LEUKOS

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Iisakki Kosonen

Multi-agent fuzzy signal control based on real-time simulation

Collective dynamics of pedestrians interacting with attractions

An intelligent control system for traffic lights with simulation-based evaluation

Map updating and change detection using vehicle-based laser scanning

Tutorial: Road Lighting for Efficient and Safe Traffic Environments

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