Jeong Hwan Bang scite author profile

Space-time adaptive processing (STAP) is an important airborne radar technique used to improve target detection in clutter-limited environments. Effective STAP implementation is dependent on accurate space-time covariance matrix estimation. Heterogeneous clutter, including spiky, spatial clutter variation, violates underlying STAP training assumptions and can significantly degrade corresponding detection performance. This paper develops a spiky, space-time clutter model based on the K-distribution, assesses the resulting impact on STAP performance using traditional methods, and then proposes and evaluates the utility of the knowledge-aided parametric covariance matrix estimation (KAPE) method, a model-based scheme that rapidly converges to better represent spatial variation in clutter properties. Via numerical simulation of an airborne radar scenario operating in a spiky clutter environment, we find substantial improvement in probability of detection (P D ) for a fixed probability of false alarm (P FA ) for the KAPE method. For example, in the spiky clutter environment considered herein, results indicate a P D of 32% for traditional STAP and in excess of 90% for KAPE at a P FA of 1E-4, with a corresponding difference of 11.5 dB in threshold observed from exceedance analysis. The proposed K-distributed spiky clutter model, and application and assessment of KAPE as an ameliorating STAP technique, contribute to an improved understanding of radar detection in complex clutter environments.

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Differences in crab burrowing and halophyte growth by habitat types in a Korean salt marsh

Bang

Lee

2019

Ecological Indicators

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Jeong Hwan Bang

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Plant distribution along an elevational gradient in a macrotidal salt marsh on the west coast of Korea

Model-based clutter cancellation based on enhanced knowledge-aided parametric covariance estimation

Knowledge-Aided Covariance Matrix Estimation in Spiky Radar Clutter Environments

Differences in crab burrowing and halophyte growth by habitat types in a Korean salt marsh

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