350 rub
Journal Achievements of Modern Radioelectronics №9 for 2019 г.
Article in number:
Method for constructing a compact hyperspectral camera for UAVs
Type of article: scientific article
DOI: 10.18127/j20700784-201909-10
UDC: 004.352
Authors:

K.R. Mudrak – Head of Department,

LTD «STC» (St. Petersburg)

E-mail: zzzmurdoczzz@bk.ru

Abstract:

A hyperspectral camera, in contrast to ordinary color cameras, makes it possible to determine not the chromaticity of objects in the RGB basis, but directly the spectral composition of objects located in the field of view. This feature of the cameras allows for an analysis of the composition of substances in the field of view of the camera, which, when this camera is installed on flying vehicles, leads to an increase in the information content of the species control of the underlying surface. Private use of hyperspectral imaging - determining the type and condition of the vegetation on which the survey is being made. 

Pages: 78-83
References
  1. Hans Grahn, Paul Geladi Techniques and Applications of Hyperspectral Image Analysis. John Wiley & Sons. ISBN 978-0-470-01087-7.
  2. Sigernes F., Heia K., Nilsen H., Svenøe T. Imaging spectroscopy applied in the fish industry. Norw. Soc. Image Process. Pattern Recogn. 2. 16–24 (1998).
  3. Herrala E., Okkonen J. Imaging spectrograph and camera solutions for industrial applications. Int. J.Pattern Recognit. Artif. Intell. 10(01). 43–54 (1996).
  4. Vysloukh V.A. Dispersiya sveta. Fizicheskaya entsiklopediya. 1988. T. 1. S. 650–652. [in Russian]
  5. SCHOTT AG. URL: http://www.us.schott.com.
  6. Danilov P.P. Tsifrovaya fotografiya. Ot vybora kamery do pechati snimkov. SPb.: BHV. 2007. [in Russian]
  7. Preparata F., Sheymos M. Razdel 2.2: Zadachi lokalizatsii tochek. Vychislitel'naya geometriya: vvedenie. M.: Mir. 1989. [in Russian]
  8. Robertson D.P., Cipolla R. Structure from motion. 2008.
Date of receipt: 5 сентября 2019 г.