In a recent paper the problem of ISAR imaging moving ground targets was discussed and an effective solution based on a novel joint STAP-ISAR formulation was proposed. In the case of bistatic geometry, ISAR imaging can be simply and effectively enabled via the Bistatically Equivalent Monostatic (BEM) theory, which allows for monostatic ISAR processing to be used to form bistatic ISAR images. However, the clutter non-stationary introduced by the bistatic geometry strongly degraded STAP performances if a monostatic STAP processing is used. In this paper a new joint STAP-ISAR processing is introduced that works in the bistatic case. Theoretical figures and numerical simulations are used to prove the effectiveness of the proposed approach.
Clutter Suppression and High Resolution Imaging of Non-cooperative Ground Targets for Bistatic Airborne Radar
Bacci, Alessio;Martorella, Marco;Berizzi, Fabrizio
2018-01-01
Abstract
In a recent paper the problem of ISAR imaging moving ground targets was discussed and an effective solution based on a novel joint STAP-ISAR formulation was proposed. In the case of bistatic geometry, ISAR imaging can be simply and effectively enabled via the Bistatically Equivalent Monostatic (BEM) theory, which allows for monostatic ISAR processing to be used to form bistatic ISAR images. However, the clutter non-stationary introduced by the bistatic geometry strongly degraded STAP performances if a monostatic STAP processing is used. In this paper a new joint STAP-ISAR processing is introduced that works in the bistatic case. Theoretical figures and numerical simulations are used to prove the effectiveness of the proposed approach.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
