Projection approach for STAP
2002
The sample support problem in space-time adaptive processing (STAP) applications arises from the requirement to adapt many spatial and temporal degrees-of-freedom (DOF) to a changing interference environment that includes clutter and jammers. Often, in heterogeneous overland strong clutter environments, the available wide sense stationary sample support is severely limited to preclude the direct implementation of the sample matrix inverse (SMI) approach. We outline an approach to address the sample support problem by utilizing projection methods - alternating projections or relaxed projection operators onto desired convex sets - to retain the a-priori known structure of the covariance matrix. Our initial analysis shows that by combining these approaches with eigen-based techniques, it is possible to reduce significantly the data samples required in non-stationary environment and consequently achieve superior target detection. In fact, multiplicative improvement in data reduction compared to direct eigen-based methods can be obtained at the expense of negligible loss in space-time aperture.
Keywords:
- Electronic engineering
- Covariance matrix
- Clutter
- Projection method
- Data reduction
- Mathematical optimization
- Matrix (chemical analysis)
- Sample matrix inversion
- Space-time adaptive processing
- Projection (linear algebra)
- Mathematics
- Stationary process
- Operator (computer programming)
- Jamming
- Interference (wave propagation)
- Correction
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