1
Communication Group, Nave Department, Imam Khamenh ei University, Zibakenar, Guilan, Iran
2
Jangal teacher
Abstract
Now, different advanced radar technologies are used in military missions. LPI radars are desired technologies because of their stealth properties. It is obvious that having informations about the enemy’s radar capabilities in marine missions of navy forces to guarantee to be stealth completely, is effective on the success of high speed crafts navy missions. Because, it is necessary to be invisible completely from enemy’s radars when closing to our predetermined targets to do some missions. For this, we need to detect the present LPI radars in sea more confidently to be sure that are we invisible from enemy equipments or not. Therefore, in this paper we present a multi-algorithm method detection method of determined LPI-FMCW radar for improving the capability of high speed crafts in navy missions. The computational simulations for a pilot LPI radar proves the suitability of our proposed algorithm, which has merits more than similar previous related algorithms.
Rezapour Kourandeh, A., & Enayati Alechali, H. (2019). Introducing a multi-algorithm detection method of determined LPI-FMCW radar for improving the capability of high speed crafts in navy missions. High Speed Craft Engineering, 17(53), 46-61.
MLA
Abolhasan Rezapour Kourandeh; Hossein Enayati Alechali. "Introducing a multi-algorithm detection method of determined LPI-FMCW radar for improving the capability of high speed crafts in navy missions", High Speed Craft Engineering, 17, 53, 2019, 46-61.
HARVARD
Rezapour Kourandeh, A., Enayati Alechali, H. (2019). 'Introducing a multi-algorithm detection method of determined LPI-FMCW radar for improving the capability of high speed crafts in navy missions', High Speed Craft Engineering, 17(53), pp. 46-61.
VANCOUVER
Rezapour Kourandeh, A., Enayati Alechali, H. Introducing a multi-algorithm detection method of determined LPI-FMCW radar for improving the capability of high speed crafts in navy missions. High Speed Craft Engineering, 2019; 17(53): 46-61.
)