Publication detail

Comparison of Methods for Determination of Borders of Stream Visualized by Smoke Method

CALETKA, P. PECH, O. JEDELSKÝ, J. JÍCHA, M. RICHTER, J.

Original Title

Comparison of Methods for Determination of Borders of Stream Visualized by Smoke Method

English Title

Comparison of Methods for Determination of Borders of Stream Visualized by Smoke Method

Type

conference paper

Language

en

Original Abstract

Smoke visualization is the method which aims to obtain primary, especially qualitative information about the flow field. One of the visualization outputs is a plane cut of the flow (image). It is necessary to separate the flow region from the background with image segmentation because of information about its geometry. After this operation, the flow border points are detected.

English abstract

Smoke visualization is the method which aims to obtain primary, especially qualitative information about the flow field. One of the visualization outputs is a plane cut of the flow (image). It is necessary to separate the flow region from the background with image segmentation because of information about its geometry. After this operation, the flow border points are detected.

Keywords

flow visualization; image segmentation; automotive vents; fluid mechanics; thresholding

RIV year

2015

Released

23.06.2015

Publisher

University J. E. Purkyně in Ústí nad Labem Faculty of Production Technology and Management Department of Machines and Mechanics

Location

Ústí nad Labem

ISBN

978-80-7414-912-2

Book

34th Conference of Departments of Fluids Mechanics and Thermomechanics Proceedings of Extended Abstracts

Edition

1

Pages from

11

Pages to

12

Pages count

2

BibTex


@inproceedings{BUT115624,
  author="Petr {Caletka} and Ondřej {Pech} and Jan {Jedelský} and Miroslav {Jícha} and Jan {Richter}",
  title="Comparison of Methods for Determination of Borders of Stream Visualized by Smoke Method",
  annote="Smoke visualization is the method which aims to obtain primary, especially qualitative information about the flow field. One of the visualization outputs is a plane cut of the flow (image). It is necessary to separate the flow region from the background with image segmentation because of information about its geometry. After this operation, the flow border points are detected.",
  address="University J. E. Purkyně in  Ústí nad Labem Faculty of Production Technology and Management Department of Machines and Mechanics",
  booktitle="34th Conference of Departments of Fluids Mechanics and Thermomechanics Proceedings of Extended Abstracts",
  chapter="115624",
  edition="1",
  howpublished="print",
  institution="University J. E. Purkyně in  Ústí nad Labem Faculty of Production Technology and Management Department of Machines and Mechanics",
  year="2015",
  month="june",
  pages="11--12",
  publisher="University J. E. Purkyně in  Ústí nad Labem Faculty of Production Technology and Management Department of Machines and Mechanics",
  type="conference paper"
}