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CISS
2011
IEEE
2011
IEEE
Noncoherent compressive sensing with application to distributed radar
—We consider a multi-static radar scenario with spatially dislocated receivers that can individually extract delay information only. Furthermore, we assume that the receivers are not phase-synchronized, so the measurements across receivers can only be combined noncoherently. We cast this scenario as a compressive sensing reconstruction problem, where the vector of unknowns consists of complex baseband coefficients of tentative targets at discrete positions within a region of interest. The difference to previous work is that each receiver has to have a separate set of variables to account for the noncoherent measurement model. This leads to multiple reconstruction problems that are individually ill-defined, but can be regularized by a shared sparsity pattern, as studied in jointly- or block-sparse reconstruction problems. We evaluate this approach in a simple scenario with three receivers and three closely spaced targets. Using the popular basis pursuit and orthogonal matching pursu...
Real-time TrafficCISS 2011 | Information Technology | Multi-static Radar Scenario | Reconstruction Problems | Scenario |
| Added | 18 Aug 2011 |
| Updated | 18 Aug 2011 |
| Type | Journal |
| Year | 2011 |
| Where | CISS |
| Authors | Christian R. Berger, Josee M. F. Moura |
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