Metrological support of radiometric calibration of opto-electronic instruments for the Earth remote sensing
Heading:
1Mikheenko, LA, 1Borovytskyi, VN 1National Technical University of Ukraine “Kyiv Polytechnic Institute”, Kyiv, Ukraine |
Kosm. nauka tehnol. 2009, 15 ;(5):03-15 |
https://doi.org/10.15407/knit2009.05.003 |
Publication Language: Russian |
Abstract: We present an analysis of techniques, schemes and apparatus for the absolutization of measurements of energetic characteristics and calibration of opto-electronic instruments for the Earth remote sensing. Some new schemes and techniques are proposed for the Ukrainian space systems of high amplitude and spatial resolution which guarantee a high metrolog-ical level of the measurements with the use of the components and instruments available in Ukraine.
|
Keywords: amplitude and spatial resolution, calibration, remote sensing |
References:
1. Avanesov G. A., Ziman Ia. L., Sychev A. G., Tarnopolskii V. I. Metrological support of measurements of earth-surface brightness by the Fragment multispectral scanning system. Issledovanie Zemli iz Kosmosa, No. 5, 65–77 (1981) [in Russian].
2. Bogdanov A. A., Nalimov V. N., Sychev A. G., et al. Concerning the possibility of improving the spectroradiometric accuracy of remote sensing of the earth by means of multispectral band scanners. Issledovanie Zemli iz Kosmosa, No. 3, 77–85 (1981) [in Russian].
3. Varichenko L. V., Kolobrodov V. G., Ladyka Ya. Ye., et al. Some methods and measurement means for energetic characteristics of optoelectronic Earth remote imagers. Kosm. nauka tehnol., 12 (2-3), 59–69 (2006) [in Russian].
4. Gogochiya V. V. Methods for reconstructing the spectral density of the energy brightness of natural objects from integrated measurements. Issledovanie Zemli iz Kosmosa, No. 6, 95–102 (1982) [in Russian].
5. Gorelov V. A., Lukashevich E. L., Streltsov V. A. Status and development trends of space remote sensing high resolution. GIS — Associacija. Inform. bjul., No. 4 (36), 6–11 (2002) [in Russian].
6. Gorelov V. A., Lukashevich E. L., Streltsov V. A. Status and development trends of space remote sensing high resolution. GIS — Associacija. Inform. bjul., No. 5 (37), 7–12, 43–45 (2002) [in Russian].
7. Zolotarevskii Yu. M., Ivanov V. S., Kotyuk A. F., Krutikov V. N. Methodological Principles and Development Prospects in Optical Radiometry. Izmerit. tehnika, No. 11, 8–12 (2005) [in Russian].
8. Ivanov V. S., Sapritsky V. I., Ogarev S. A., et al. International project to realize the lumene. Svetotehnika, No. 5, 3–10 (2002) [in Russian].
9. Kiselev I. A., Korostelev A. N., Naraeva M. K., et al. Monitoring the energy characteristics of multispectral scanners on board the Resurs-01 satellite. Issledovanie Zemli iz Kosmosa, No. 2, 34–43 (1991) [in Russian].
10. Kovalsky V. Ya., Maltsev V. V., Nalimov V. N., et al. The method of accounting for the inhomogeneity of the brightness of reference lamps for the calibration of photometers. Optiko-meh. prom-st', No. 11, 13–16 (1980) [in Russian].
11. Kotyuk A. F., Panasyuk V. S., Samoilov L. N., et al. A unified system of state standards for power photometry of coherent and incoherent optical radiation. Izmerit. tehnika, No. 3, 17–24 (1976) [in Russian].
12. Kupko A. D., Nazarenko L. A. Metrological support of light measurements in Ukraine. Svetotehnika, No. 5, 38–40 (2001) [in Russian].
13. Mikheenko L. A., Borovytsky V. N. Illumination unit with brightness variation based on optically-coupled integration spheres. Tehnologija i konstruirovanie radiojelektronnoj apparatury, No. 6 (66), 61–64 (2006) [in Russian].
14. Mikheenko L. A., Borovitsky V. N. Theory and evaluation of diffusive illumination unit with radiance variation based on inverse quadrate law. Measuring and Computing Devices in Technological Processes, No. 1, 73–80 (2006) [in Russian].
15. Mikheenko L. A., Borovytsky V. N. Secondsry radiance etalon source based on halogen lam with diffuser. Tehnologija i konstruirovanie radiojelektronnoj apparatury, No. 3 (75), 61–64 (2008) [in Russian].
16. Mikheyenko L. A., Shyshkin V. A. Diffuse light source with variable radiance for calibration of precise digital video systems. Nauk. visti National Technical University of Ukraine "Igor Sikorsky Kyiv Polytechnic Institute", No. 1, 114—120 (2009) [in Ukrainian].
17. Mikheyenko L. A. Energy calibration optoelectronic systems for remote sensing of high resolution. In: Pryladobuduvannja 2009: stan i perspektyvy: tezy dop. VII mizhnar. nauk.-tehn. konf., April 28 — 29, 2009, P.42 (NTUU "KPI", Kyiv, 2009) [in Ukrainian].
18. Miheenko L. A., Kovalenko A. V. Mathematical model of emitter with a dispersive element. Bulletin of NTUU “Kyiv Polytechnic Institute”. Ser. Instrument Making, Is. 36, 31—37 (2008) [in Ukrainian].
19. Mikheyenko L. A., Mykytenko V. I. The approaches, means and metrological assurance of calibrationof the standard radiators. Nauk. visti National Technical University of Ukraine "Igor Sikorsky Kyiv Polytechnic Institute", No. 6, 94—99 (2008) [in Ukrainian].
20. Mukhamediarov R. D., Glushkov A. S., Mikhailov A. S., Khisamov R. Sh. Metrological certification of a high-resolution multispectral scanner. Issledovanie Zemli iz Kosmosa, No. 1, 64– 74 (1991) [in Russian].
21. Panfilov A. S., Burdakin A. A., Ivanov V. S. et al. RIOPhM works in the field of metrology to ensure radiometric calibration and flight stability control optical Earth observation equipment. In: Modern problems of remote sensing of the Earth from space: Sixth All-Russian open annual Conf.: Proceedings, 288–294 (2007) [in Russian].
22. Mikheienko L. A., Kolobrodov V. H., Mykytenko V. I., et al. Diffused oscillator. Pat. 78609 Ukraine, Bull. No. 4 (2007) [in Ukrainian].
23. Stolyarevskaya R. I. Research methods of metrological characteristics. Devices for measurement of light values. Svetotekhnika, No. 6, 21–26 (1998) [in Russian].
24. Khlevnoi B. B., Ogarev S. A., Sapritskii V. I., et al. Reference blackbody sources in the 100-3500 K range for precision measurements in radiometry, photometry, and optical thermometry. Izmerit. tehnika, No. 11, 29–35 (2005) [in Russian].
25. Kholopov G. K., Khisamov R. Sh., Khuzin F. G. Normalization of Response of Radiometric Instrumentation for Studying Earth's Natural Resources. Issledovanie Zemli iz Kosmosa, No. 4, 81–88 (1984) [in Russian].