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Wyszukujesz frazę "microwave remote sensing" wg kryterium: Temat


Wyświetlanie 1-4 z 4
Tytuł:
Symulacja procesu polarymetrycznej klasyfikacji obiektów realizowanego metodą dekompozycji
Simulation of object polarimetric classification process based on target decomposition technique
Autorzy:
Lila, B.
Kapelewski, J.
Powiązania:
https://bibliotekanauki.pl/articles/209318.pdf
Data publikacji:
2009
Wydawca:
Wojskowa Akademia Techniczna im. Jarosława Dąbrowskiego
Tematy:
elektronika
radiolokacja
teledetekcja własności fizycznych
electronics
radar technology
microwave remote sensing
Opis:
Dane uzyskiwane z zastosowaniem radaru polarymetrycznego SAR stanowią podstawę do numerycznej syntezy zobrazowań, zawierających informacje o charakterze i rodzaju obiektów występujących w badanym obszarze terenu. Efektem wstępnego etapu przetwarzania, którym jest kompresja azymutalna, są dane numeryczne stanowiące w swej istocie rodzaj czterowarstwowej mapy o wysokiej rozdzielczości, w której każdemu pikselowi lokalizacji przestrzennej przyporządkowane są cztery składowe polarymetrycznej macierzy rozpraszania. W kolejnym etapie realizowana jest dalsza konwersja danych, prowadząca do struktur opartych na macierzach kowariancji lub koherencji. Ostatni, najbardziej istotny etap przetwarzania realizowany jest na podstawie tzw. Polarymetrycznej dekompozycji obiektu. Jednym z wariantów dekompozycji jest metoda oparta na diagonalizacji macierzy koherencji z wykorzystaniem jej wektorów własnych. W artykule przedstawiono rezultaty eksperymentów numerycznych, przeprowadzonych z użyciem algorytmu wykorzystującego wariant ww. metody zwany dekompozycją Cloude'a.
In microwave remote sensing of many types of physical objects located at a ground surface, the technique using synthetic aperture radar (SAR) installed on an airborne or spaceborne platform, in view of output information, seems to be the most effective. A special variant of the mentioned technique is a technique basing on a polarimetric, two channel SAR (POL-SAR) use. Polarimetry basing on this technique is probably one of the more significant directions to expand the range of information, gained with "classic" SAR. At present, polarimetric SAR is still improved and widely accepted remote sensing technique. The data, obtained with the mentioned technique using from airborne or spaceborne mission, are the base for numerical imaging synthesis, and allow us to get a wide range of information about character and type of objects appearing in the analyzed terrain area. The first stage of a data processing, based on the data obtained with POL-SAR technique, is the azimuthal compression. The product of this process is numerical data, being in fact a four-layer numerical map with high azimuthal resolution. In this map, the four elements of Sinclair's polarimetric scattering matrix for each pixel are assigned. Complexity of scattering processes, which, in general, characterizes interaction between electromagnetic waves and many target types, considerably limits the usage of the "raw" images, obtained from this processing stage. The majority of obtained image cases are related to objects, being, from the standpoint of numerical representation, statistically homogeneous spatial distribution of accidentally located scattering centers, having deterministic characteristics. For full utilization of the obtained polarimetric information, a structure data conversion is used, ranging from data based on a Sinclair matrix to data based on coherency (or covariance) matrix. Coherency and covariance matrices are the result of object properties spatial averaging. In the next stage of the processing, the information about the nature of the objects, included in numerical images, is obtained. Such information already enables characterization and classification of registered objects. In reference to precision and accuracy of polarimetric SAR data reading, this most important stage of processing is realized, basing on polarimetric target decomposition algorithms. Generally, a choice of the most effective decomposition method, which will be used in a processing algorithm, depends on an assumed class of detected and characterized object. The class of the objects is determined, in statistical terms, by their special scattering characteristics. One of often taken treatments is a decomposition method, which bases on eigenvector coherency matrix diagonalization. The paper presents the results of numerical experiments, carried out with the algorithm based on Cloude's decomposition, being a variety of eigenvector decomposition method. The basic target of these experiments was evaluation of considered method in reference to its usefulness for vague objects characterization. A very important advantage of realized simulations was the ability to define, in view of objects classification reliability, the optimal scope of the considered method's application. The numerical processing was realized with the use of authentic polarimetric SAR mission data.
Źródło:
Biuletyn Wojskowej Akademii Technicznej; 2009, 58, 4; 59-66
1234-5865
Pojawia się w:
Biuletyn Wojskowej Akademii Technicznej
Dostawca treści:
Biblioteka Nauki
Artykuł
Tytuł:
A Study of Types of Sensors used in Remote Sensing
Autorzy:
Vincent, Shweta
Francis, Sharmila Anand John
Raimond, Kumudha
Kumar, Om Prakash
Powiązania:
https://bibliotekanauki.pl/articles/227262.pdf
Data publikacji:
2019
Wydawca:
Polska Akademia Nauk. Czytelnia Czasopism PAN
Tematy:
disaster management
microwave sensors
optical sensors
Remote Sensing
Opis:
Of late, the science of Remote Sensing has been gaining a lot of interest and attention due to its wide variety of applications. Remotely sensed data can be used in various fields such as medicine, agriculture, engineering, weather forecasting, military tactics, disaster management etc. only to name a few. This article presents a study of the two categories of sensors namely optical and microwave which are used for remotely sensing the occurrence of disasters such as earthquakes, floods, landslides, avalanches, tropical cyclones and suspicious movements. The remotely sensed data acquired either through satellites or through ground based-synthetic aperture radar systems could be used to avert or mitigate a disaster or to perform a post-disaster analysis.
Źródło:
International Journal of Electronics and Telecommunications; 2019, 65, 2; 217-228
2300-1933
Pojawia się w:
International Journal of Electronics and Telecommunications
Dostawca treści:
Biblioteka Nauki
Artykuł
Tytuł:
Microwave radiometry in monitoring and emergency mapping of water seepage and dangerously high groundwaters
Autorzy:
Shutko, A. M.
Haldin, A.
Krapivin, V.
Novichikhin, E.
Sidorov, I.
Tishchenko, Y.
Haarbrink, R.
Georgiev, G.
Kancheva, R.
Nikolov, H.
Coleman, T.
Archer, F.
Pampaloni, P.
Paloscia, S.
Krissilov, A.
Camps Carmona, A.
Powiązania:
https://bibliotekanauki.pl/articles/307666.pdf
Data publikacji:
2007
Wydawca:
Instytut Łączności - Państwowy Instytut Badawczy
Tematy:
remote sensing
passive microwave radiometry
soil moisture
water seepage
risk assessment
Opis:
Detailed and geo-referenced maps identifying the locations of saturated and dry levees can be produced using microwave radiometric measurements from a light aircraft or helicopter, and integrated with GPS for positioning and orientation. The development of synergetic remote sensing technology for raised groundwater and seepage detection by the joint use of microwave and optical data along with GIS databases is an effective and most contemporary way of supporting risk assessment and facilitating disaster prevention and management. In this paper we present a remote sensing microwave technology for monitoring and detection of areas of water seepage through irrigation constructions, levees and dykes as well as for revealing areas with dangerously high groundwater level. The possibility for emergency response mapping, integrated with GPS and GIS data, facilitates the risk assessment and management services. The passive microwave radiometry (PMR) is based on spectral measurements in the millimetre to decimetre range of wavelengths. Compared to other remote sensing techniques, such as colour and infrared photography, thermal images and lidar, PMR is the only technology taking measurements under the earth's surface and therefore is very well suited for water seepage and underground water monitoring in a fast and reliable way.
Źródło:
Journal of Telecommunications and Information Technology; 2007, 1; 76-82
1509-4553
1899-8852
Pojawia się w:
Journal of Telecommunications and Information Technology
Dostawca treści:
Biblioteka Nauki
Artykuł
Tytuł:
Imprints of atmospheric waves on the Black Sea surface in data of ocean color scanners
Autorzy:
Evdoshenko, M.A.
Powiązania:
https://bibliotekanauki.pl/articles/2079182.pdf
Data publikacji:
2020
Wydawca:
Polska Akademia Nauk. Instytut Oceanologii PAN
Tematy:
remote sensing
ocean optics
Black Sea
sea surface
synthetic aperture radar
microwave radiation
boundary layer
satellite observation
Opis:
Data from MERIS onboard Envisat and MODIS onboard Terra and Aqua for 15–16 May 2010 were used to study powerful imprints of atmospheric gravity waves (AGWs) on the western part the Black Sea surface. Two cold fronts crossed the sea following the warm front and caused the AGWs which modulated the sea surface. Imprints of AGWs appeared as stripes of alternating brightness, they had crest length more than a hundred kilometers and wavelength of units of kilometers. Wave amplitude of AGWs imprints, evaluated by a 90%-depth of light penetration into the sea at 490 nm z90, the value inverse to the diffuse attenuation coefficient Kd_490, was units of decimeterxs. MODIS 250-m data of remote sensing reflectance, wind components and atmospheric pressure near the sea surface were obtained by processing the top of atmosphere data with the SeaDAS software package. Negative correlations of fluctuations of z90 with fluctuations of wind stress and atmospheric pressure were found on the transects of more than ten kilometers. The impact of wind stress on the origination of AGW imprints was found to be determinant, while the impact of atmospheric pressure was not more than units of percent.
Źródło:
Oceanologia; 2020, 62, 3; 255-266
0078-3234
Pojawia się w:
Oceanologia
Dostawca treści:
Biblioteka Nauki
Artykuł
    Wyświetlanie 1-4 z 4

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