Cognitive frequency offset calculation for frequency diverse array radar

Author

Basit, A. ; Qureshi, I.M. ; Khan, W. ; Khan, S.U.

Author_Institution

Int. Islamic Univ., Islamabad, Pakistan

fYear

2015

fDate

13-17 Jan. 2015

Firstpage

641

Lastpage

645

Abstract

Frequency diverse array (FDA) radars have the ability to generate a beam pattern that is a function of range angle and time. The wavy beam pattern can be controlled by using a suitable frequency increment applied at the input of the array elements. Instead of using fixed frequency increment for FDA, we propose a cognitive frequency offset calculation method that supports to beam steer the target position (direction and range), adaptively. The receiver estimates the position of the target and tunnels the predicted position to the transmitter. Based on the feedback from the receiver, the proposed transmitter calculates the new frequency increment at each cycle. Monte-Carlo based simulation results validate the performance of the proposed method.

Keywords

Monte Carlo methods; antenna phased arrays; beam steering; phased array radar; radionavigation; target tracking; FDA radars; Monte-Carlo based simulation; beam steer; cognitive frequency offset calculation method; fixed frequency increment; frequency diverse array radar; target position; wavy beam pattern; Transmitters; Kalman filter; cognitive radar; direction of arrival; frequency diverse array;

fLanguage

English

Publisher

ieee

Conference_Titel

Applied Sciences and Technology (IBCAST), 2015 12th International Bhurban Conference on

Conference_Location

Islamabad

Type

conf

DOI

10.1109/IBCAST.2015.7058575

Filename

7058575