A new approach to threat tracking on ESM systems by using Kalman filters;

No Thumbnail Available

Date

2009

Authors

Journal Title

Journal ISSN

Volume Title

Publisher

Research Projects

Organizational Units

Thumbnail Image
Organizational Unit
Department of Electrical & Electronics Engineering
Department of Electrical and Electronics Engineering (EE) offers solid graduate education and research program. Our Department is known for its student-centered and practice-oriented education. We are devoted to provide an exceptional educational experience to our students and prepare them for the highest personal and professional accomplishments. The advanced teaching and research laboratories are designed to educate the future workforce and meet the challenges of current technologies. The faculty's research activities are high voltage, electrical machinery, power systems, signal and image processing and photonics. Our students have exciting opportunities to participate in our department's research projects as well as in various activities sponsored by TUBİTAK, and other professional societies. European Remote Radio Laboratory project, which provides internet-access to our laboratories, has been accomplished under the leadership of our department with contributions from several European institutions.

Journal Issue

Abstract

Kalman filtering (KF) is a form of recursive estimator, which has been widely applied to different applications. This paper discusses a new approach, based on a discrete event process, for tracking of threats (emitters). Pulses of a particular threat from received mixed (raw) pulse sequences of multiple threats corrupted by timing jitter and measurement noises are aimed to be tracked. Required parameters to initiate KF are taken from identification algorithm which begins before KF algorithm. Hereby, KF runs on mixed pulse train. The algorithm based on KF is adaptive to both the noise and missing pulses together with large time gaps between pulses of the threat. The algorithm is robust and efficient due to the fact that it includes various distinctive parameters of the threat such as frequency (TF), pulse width (DG), angle of arrival (GA) and scan patterns (TO). ©2009 IEEE.

Description

Keywords

[No Keyword Available]

Turkish CoHE Thesis Center URL

Citation

2

WoS Q

Scopus Q

Source

2009 IEEE 17th Signal Processing and Communications Applications Conference, SIU 2009 -- 2009 IEEE 17th Signal Processing and Communications Applications Conference, SIU 2009 -- 9 April 2009 through 11 April 2009 -- Antalya -- 77539

Volume

Issue

Start Page

173

End Page

176

URI

https://doi.org/10.1109/SIU.2009.5136360
 https://hdl.handle.net/20.500.14411/3600

Collections

Scopus