ICTACT Journal on Communication Technology

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Performance Analysis of a Modified CFAR Based Radar Detector under Pearson Distributed Clutter


Affiliations
1 School of Information and Communication Technology, Gautam Buddha University, India
2 Department of Electronics and Communication Engineering, Indian Institute of Technology, Roorkee, India
     

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An adaptive target detector in radar system is used to extract targets from background in noisy environment of unknown statistics. The constant false alarm rate (CFAR) is well known detection algorithm that is being used in almost every modern radar. The cell averaging CFAR is the optimum detector in homogeneous clutter environment when the refence cells have identically independent and exponentially distributed signals. The performance of CA CFAR degrades seriously when clutter power substantially varies in non-homogeneous background. To overcome the performance degradation, a non-linear compression technique based CFAR has been introduced for adaptive thresholding to meet the challenges of target detection from various degrees of Pearson distributed non-homogeneous clutter. Extensive MATLAB simulations have been done using various levels of clutter input to show the effectiveness of the proposed design. Improvement in Signal-to-Noise ratio (SNR) has been achieved using Swerling I model for Rayleigh fluctuating target in the backdrop of heavy clutter.

Keywords

CFAR, SNR, Pearson Distributed Clutter, Adaptive Target Detector, Swerling Model.
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  • Performance Analysis of a Modified CFAR Based Radar Detector under Pearson Distributed Clutter

Abstract Views: 259  |  PDF Views: 0

Authors

Amritakar Mandal
School of Information and Communication Technology, Gautam Buddha University, India
Rajesh Mishra
School of Information and Communication Technology, Gautam Buddha University, India
Brajesh Kumar Kaushik
Department of Electronics and Communication Engineering, Indian Institute of Technology, Roorkee, India

Abstract


An adaptive target detector in radar system is used to extract targets from background in noisy environment of unknown statistics. The constant false alarm rate (CFAR) is well known detection algorithm that is being used in almost every modern radar. The cell averaging CFAR is the optimum detector in homogeneous clutter environment when the refence cells have identically independent and exponentially distributed signals. The performance of CA CFAR degrades seriously when clutter power substantially varies in non-homogeneous background. To overcome the performance degradation, a non-linear compression technique based CFAR has been introduced for adaptive thresholding to meet the challenges of target detection from various degrees of Pearson distributed non-homogeneous clutter. Extensive MATLAB simulations have been done using various levels of clutter input to show the effectiveness of the proposed design. Improvement in Signal-to-Noise ratio (SNR) has been achieved using Swerling I model for Rayleigh fluctuating target in the backdrop of heavy clutter.

Keywords


CFAR, SNR, Pearson Distributed Clutter, Adaptive Target Detector, Swerling Model.