Title :
An Improved Nonparametric Detector for Nonhomogeneous Clutter Environment
Author :
Xiaodan Li ; Bingnan Pei ; Yanhui Zhang
Author_Institution :
Inf. Eng. Coll., Dalian Univ., Dalian, China
Abstract :
The Variability Index Modified Rank Squared (VI-MRS) nonparametric detector is introduced in this article. Depending on whether the background environment is homogeneous or not, VI-MRS can select Modified Rank Squared CFAR (MRS-CFAR), Greatest of Modified Rank Squared CFAR (GO-MRS-CFAR), or Trimmed Modified Rank Squared CFAR (TMRS-CFAR) to compute the threshold adaptively. The performance of the proposed detector is analyzed under the Swirling II target model in homogeneous and non-homogeneous environment by Monte-Carlo simulation. The results show that the proposed detection algorithm has better performance compared with Generalized Sign (GS) and Modified Rank Squared (MRS) detector.
Keywords :
Monte Carlo methods; radar clutter; radar detection; GO-MRS-CFAR; GS; MRS-CFAR; Monte-Carlo simulation; TMRS-CFAR; VI-MRS; automatic detection radar system; background environment; generalized sign; greatest of modified rank squared CFAR; homogeneous environment; modified rank squared CFAR; nonhomogeneous clutter environment; nonhomogeneous environment; swirling II target model; trimmed modified rank squared CFAR; variability index modified rank squared nonparametric detector; Clutter; Detectors; Educational institutions; Radar; Thyristors; Tunneling magnetoresistance; Homogeneous environment; Non-homogeneous environment; Nonparametric detection; constant false alarm rate (CFAR);
Conference_Titel :
Computer Applications and Communications (SCAC), 2014 IEEE Symposium on
Conference_Location :
Weihai
DOI :
10.1109/SCAC.2014.9
