Parametric Filters for Non-Stationary Interference Mitigation in Airborne Radars

Abstract

Multichannel parametric filters are currently being studied as a means of reducing the dimension of STAP algorithms for interference rejection in airborne pulsed-Doppler radar systems. These filters are attractive to use due to the low computational cost associated with their implementation as well as their near optimal performance with a small amount of training data for a stationary environment. However; these filters do not perform well in certain types of non-stationary environments. This paper presents two modifications to the Space-Time AutoRegressive (STAR) filter that we previously proposed. The first modification is based on the Extended Sample Matrix Inversion (ESMI) technique and is used in the presence of range varying cluster which arises from the use of non-linear antenna arrays or bistatic radar systems. The second modification to the STAR jilter is for use in the presence of hot clutter and is a three-dimensional STAP algorithm. Using a realistic simulated data set for circular array STAR we show that the modifications to the STAR filter improve the performance when in the presence of the non-stationary interference.

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Document Details

Document Type
Technical Report
Publication Date
Jan 01, 2000
Accession Number
ADA405503

Entities

People

  • A. L. Swindlehurst
  • Peter Parker

Organizations

  • Brigham Young University

Tags

Communities of Interest

  • Energy and Power Technologies

DTIC Thesaurus Topics

  • Airborne
  • Algorithms
  • Antenna Arrays
  • Antennas
  • Arrays
  • Bistatic Radar
  • Computations
  • Covariance
  • Data Sets
  • Doppler Effect
  • Environment
  • Frequency
  • Radar
  • Stationary
  • Statistics
  • Three Dimensional
  • Training

Fields of Study

  • Engineering

Readers

  • Adaptive Control and Estimation with Uncertainty in Dynamic Systems.
  • Radar Systems Engineering.

Technology Areas

  • Space
  • Space - Space Objects