Temat: location errors - Katalog OPAC zbiorów

Skocz do pozycji: 1.

Tytuł:: Błędy lokalizacji źródeł emisji sygnałów w systemie rozpoznania elektronicznego
Emitter location errors in an electronic intelligence system
Autorzy:: Matuszewski, J.
Powiązania:: https://bibliotekanauki.pl/articles/153143.pdf
Data publikacji:: 2014
Wydawca:: Stowarzyszenie Inżynierów i Techników Mechaników Polskich
Tematy:: lokalizacja źródła emisji
błędy lokalizacji
rozpoznanie elektroniczne
system ESM/ELINT
emitter location
location errors
electronic intelligence
ESM/ELINT system
Opis:: W artykule podano niezbędne zależności matematyczne potrzebne do obliczenia pozycji źródła emisji sygnałów (ZE) na podstawie namiarów. Przedstawiono następujące rodzaje błędów: kątowy, eliptyczny i geometryczny. Oceny dokładności określania pozycji ZE dokonano na postawie badań symulacyjnych. Z wyników obliczeń wynika, że dokładność lokalizacji ZE jest różna w badanych punktach przestrzeni obserwacji i zależy od sposobu rozmieszczenia namierników, ich odległości do ZE oraz wzajemnego usytuowania.
The paper presents one of the basic methods used in electronic warfare (EW) systems to locate emitters (electromagnetic sources) on the basis of bearings. There are described three types of errors (circular, elliptical and geometric) which are used in calculations of the emitter location. The appropriate mathematical formulas are presented. For two direction-finding stations the point at which these lines of bearing cross is the emitter location, for three sensors this point is within the triangle. The accuracy of emitter location is normally specified in terms of measurement errors. In the angle measuring system these errors are angular while in distance measuring systems they are linear. The main research problem was to examine in which way the accuracy of emitter location and location errors depend on the direction-finding stations and emitter location, the distances between them, the value of the root mean error of bearings measurement, the number of measurements and used direction-finding stations. A particularly important element of this study was the selection process of the suitable location of direction-finding stations to improve the accuracy of emitter location. Calculations on the basis of simulated data confirmed that the accuracy of the emitter location depends on the way in which the direction-finding stations are placed in the terrain and the distances between these stations and the emitter. The results allowed determining the factors influencing the correctness of the emitter location in the triangulation method.
Źródło:: Pomiary Automatyka Kontrola; 2014, R. 60, nr 9, 9; 768-771
0032-4140
Pojawia się w:: Pomiary Automatyka Kontrola
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 2.

Tytuł:: Evaluation of emitter location accuracy with the modified triangulation method by means of maximum likelihood estimators
Autorzy:: Matuszewski, Jan
Kraszewski, Tomasz
Powiązania:: https://bibliotekanauki.pl/articles/2052134.pdf
Data publikacji:: 2021
Wydawca:: Polska Akademia Nauk. Czytelnia Czasopism PAN
Tematy:: emitter location
triangulation method
errors ellipse
maximum likelihood estimators
electronic warfare
Opis:: The determination of precise emitter location is a very important task in electronic intelligence systems. Its basic requirements include the detection of the emission of electromagnetic sources (emitters), measurement of signal parameters, determining the direction of emitters, signal analysis, and the recognition and identification of their sources. The article presents a new approach and algorithm for calculating the location of electromagnetic emission sources (radars) in a plane based on the bearings in the radio-electronic reconnaissance system. The main assumptions of this method are presented and described i.e. how the final mathematical formulas for calculating the emitter location were determined for any number of direction finders (DFs). As there is an unknown distance from the emitter to the DFs then in the final formulas it is stated how this distance should be calculated in the first iteration. Numerical simulation in MATLAB showed a quick convergence of the proposed algorithm to the fixed value in the fourth/fifth iteration with an accuracy less than 0.1 meter. The computed emitter location converges to the fixed value regardless of the choice of the starting point. It has also been shown that to precisely calculate the emitter position, at least a dozen or so bearings from each DFs should be measured. The obtained simulation results show that the precise emitter location depends on the number of DFs, the distances between the localized emitter and DFs, their mutual deployment, and bearing errors. The research results presented in the article show the usefulness of the tested method for the location of objects in a specific area of interest. The results of simulation calculations can be directly used in radio-electronic reconnaissance systems to select the place of DFs deployment to reduce the emitter location errors in the entire reconnaissance area.
Źródło:: Metrology and Measurement Systems; 2021, 28, 4; 781-802
0860-8229
Pojawia się w:: Metrology and Measurement Systems
Dostawca treści:: Biblioteka Nauki

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