Counter-Interception and Counter-Exploitation Features of Noise Radar Technology
In defense applications, the main features of radars are the Low Probability of Intercept (LPI) and the Low Probability of Exploitation (LPE). The counterpart uses more and more capable intercept receivers and signal processors thanks to the ongoing technological progress. Noise Radar Technology (NR...
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MDPI AG
2021
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oai:doaj.org-article:446616c4b261492bafc68c275b9b35a62021-11-25T18:53:47ZCounter-Interception and Counter-Exploitation Features of Noise Radar Technology10.3390/rs132245092072-4292https://doaj.org/article/446616c4b261492bafc68c275b9b35a62021-11-01T00:00:00Zhttps://www.mdpi.com/2072-4292/13/22/4509https://doaj.org/toc/2072-4292In defense applications, the main features of radars are the Low Probability of Intercept (LPI) and the Low Probability of Exploitation (LPE). The counterpart uses more and more capable intercept receivers and signal processors thanks to the ongoing technological progress. Noise Radar Technology (NRT) is probably a very effective answer to the increasing demand for operational LPI/LPE radars. The design and selection of the radiated waveforms, while respecting the prescribed spectrum occupancy, has to comply with the contrasting requirements of LPI/LPE and of a favorable shape of the ambiguity function. Information theory seems to be a “technologically agnostic” tool to attempt to quantify the LPI/LPE capability of noise waveforms with little, or absent, a priori knowledge of the means and the strategies used by the counterpart. An information theoretical analysis can lead to practical results in the design and selection of NRT waveforms.Gaspare GalatiGabriele PavanKubilay SavciChristoph WasserzierMDPI AGarticlenoise radarlow probability of interceptpseudorandom numbersrandom processeselectronic warfareelectronic support measuresScienceQENRemote Sensing, Vol 13, Iss 4509, p 4509 (2021) |
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noise radar low probability of intercept pseudorandom numbers random processes electronic warfare electronic support measures Science Q |
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noise radar low probability of intercept pseudorandom numbers random processes electronic warfare electronic support measures Science Q Gaspare Galati Gabriele Pavan Kubilay Savci Christoph Wasserzier Counter-Interception and Counter-Exploitation Features of Noise Radar Technology |
description |
In defense applications, the main features of radars are the Low Probability of Intercept (LPI) and the Low Probability of Exploitation (LPE). The counterpart uses more and more capable intercept receivers and signal processors thanks to the ongoing technological progress. Noise Radar Technology (NRT) is probably a very effective answer to the increasing demand for operational LPI/LPE radars. The design and selection of the radiated waveforms, while respecting the prescribed spectrum occupancy, has to comply with the contrasting requirements of LPI/LPE and of a favorable shape of the ambiguity function. Information theory seems to be a “technologically agnostic” tool to attempt to quantify the LPI/LPE capability of noise waveforms with little, or absent, a priori knowledge of the means and the strategies used by the counterpart. An information theoretical analysis can lead to practical results in the design and selection of NRT waveforms. |
format |
article |
author |
Gaspare Galati Gabriele Pavan Kubilay Savci Christoph Wasserzier |
author_facet |
Gaspare Galati Gabriele Pavan Kubilay Savci Christoph Wasserzier |
author_sort |
Gaspare Galati |
title |
Counter-Interception and Counter-Exploitation Features of Noise Radar Technology |
title_short |
Counter-Interception and Counter-Exploitation Features of Noise Radar Technology |
title_full |
Counter-Interception and Counter-Exploitation Features of Noise Radar Technology |
title_fullStr |
Counter-Interception and Counter-Exploitation Features of Noise Radar Technology |
title_full_unstemmed |
Counter-Interception and Counter-Exploitation Features of Noise Radar Technology |
title_sort |
counter-interception and counter-exploitation features of noise radar technology |
publisher |
MDPI AG |
publishDate |
2021 |
url |
https://doaj.org/article/446616c4b261492bafc68c275b9b35a6 |
work_keys_str_mv |
AT gasparegalati counterinterceptionandcounterexploitationfeaturesofnoiseradartechnology AT gabrielepavan counterinterceptionandcounterexploitationfeaturesofnoiseradartechnology AT kubilaysavci counterinterceptionandcounterexploitationfeaturesofnoiseradartechnology AT christophwasserzier counterinterceptionandcounterexploitationfeaturesofnoiseradartechnology |
_version_ |
1718410583002316800 |