Autors: Pleshkova, S. P., Bekiarski, A. B.
Title: Testing Thermal Images Characteristics for Thermal Images Quality Estimation
Keywords: Thermal Images Characteristics, Thermal Images Quality, Thermo Vision Systems, Motion Detection Precision Estimation

Abstract: The thermal images are produced from real working thermo vision cameras, which work as electro-optical imaging systems, sensitive to the mid and long wave infrared radiation, that generates images of the observed scenes, by using the thermal radiation emitted from the scenes. There are numerous applications of thermal imaging systems in defense, security, military, border guards, police, etc. and also a lot of civilian application like industrial noncontact temperature measurement, non-destructive thermal testing, tests of electrical power lines, building industry, medical applications, fire rescue etc. There exist many publications in the area of thermal cameras, thermal systems and their applications, but all the applications of these thermal cameras and systems are greatly depending from the quality of thermal images produced from thermal or infrared cameras. Also there is a need of rules how to choose the optimal thermal image characteristics. Of course, the first reason to thinks

References

  1. K. Beier, H. Gemperlein, 2014, Simulation of infrared detection range at fog conditions for Enhanced Vision Systems in civil aviation, Aerospace Science and Technology, Volume 8, pp. 63 – 71
  2. H. R. Sheikh, M. F. Sabir, A. C. Bovik, 1950, A Statistical Evaluation of Recent Full Reference Quality Assessment Algorithms, IEEE Transactions on Image Processing, Volume vol. 15, no. 11, pp. 3440-3451
  3. ASTM standard E 1213-2002 “Standard Test Method for Minimum Resolvable Temperature Difference for Thermal Imaging Systems”
  4. ASTM standard E1311-99 “Standard Test Method for Minimum Resolvable Temperature Difference for Thermal Imaging Systems
  5. Rumen Yordanov, Rosen Miletiev, Ivaylo Simeonov, Emil Iontchev - Spectrum analysis of the suspension dynamics measured by MEMS inertial system, 1950, Spectrum analysis of the suspension dynamics measured by MEMS inertial system, International Journal of New Computer Architectures and their Applications (IJNCAA), Volume Vol.3, Issue 4,, pp. 94-99
  6. GUIDE® EasIR-9 Thermal Camera User Manual. Wuhan Guide Infrared Co., Ltd, 2010.

Issue

18th International Conference on Systems, (part of CSCC '14), pp. 251-256, 2014, Greece, ISBN ISBN: 978-1-61804-243-9

Цитирания (Citation/s):
1. Yonchev, R. Miletiev, I.DamyanovMeasurement and Analysis of PM Particles Emitted by Automotive Brakes Date of Conference: 10-12 Sept. 2020 Date Added to IEEE Xplore: 20 October 2020 ISBN Information: INSPEC Accession Number: 20065299 DOI: 10.1109/ICEST49890.2020.9232767 Publisher: IEEE Conference Location: Niš, Serbia, Serbia - 2019 - в издания, индексирани в Scopus или Web of Science

Вид: публикация в международен форум, публикация в реферирано издание