Analytical derivation of time spectral rigidity for thermodynamic traffic gas

Milan Krbálek

Kybernetika (2010)

  • Volume: 46, Issue: 6, page 1108-1121
  • ISSN: 0023-5954

Abstract

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We introduce an one-dimensional thermodynamical particle model which is efficient in predictions about a microscopical structure of animal/human groups. For such a model we present analytical calculations leading to formulae for time clearance distribution as well as for time spectral rigidity. Furthermore, the results obtained are reformulated in terms of vehicular traffic theory and consecutively compared to experimental traffic data.

How to cite

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Krbálek, Milan. "Analytical derivation of time spectral rigidity for thermodynamic traffic gas." Kybernetika 46.6 (2010): 1108-1121. <http://eudml.org/doc/197037>.

@article{Krbálek2010,
abstract = {We introduce an one-dimensional thermodynamical particle model which is efficient in predictions about a microscopical structure of animal/human groups. For such a model we present analytical calculations leading to formulae for time clearance distribution as well as for time spectral rigidity. Furthermore, the results obtained are reformulated in terms of vehicular traffic theory and consecutively compared to experimental traffic data.},
author = {Krbálek, Milan},
journal = {Kybernetika},
keywords = {thermodynamic traffic gas; clearance distribution; spectral rigidity; thermodynamic traffic gas; clearance distribution; spectral rigidity},
language = {eng},
number = {6},
pages = {1108-1121},
publisher = {Institute of Information Theory and Automation AS CR},
title = {Analytical derivation of time spectral rigidity for thermodynamic traffic gas},
url = {http://eudml.org/doc/197037},
volume = {46},
year = {2010},
}

TY - JOUR
AU - Krbálek, Milan
TI - Analytical derivation of time spectral rigidity for thermodynamic traffic gas
JO - Kybernetika
PY - 2010
PB - Institute of Information Theory and Automation AS CR
VL - 46
IS - 6
SP - 1108
EP - 1121
AB - We introduce an one-dimensional thermodynamical particle model which is efficient in predictions about a microscopical structure of animal/human groups. For such a model we present analytical calculations leading to formulae for time clearance distribution as well as for time spectral rigidity. Furthermore, the results obtained are reformulated in terms of vehicular traffic theory and consecutively compared to experimental traffic data.
LA - eng
KW - thermodynamic traffic gas; clearance distribution; spectral rigidity; thermodynamic traffic gas; clearance distribution; spectral rigidity
UR - http://eudml.org/doc/197037
ER -

References

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