Modified synthetic aperture algorithm for sonar systems

## Abstract This article presents a robust motion estimation and correction technique for the realization of synthetic‐aperture side‐scan sonar imaging. It utilizes the redundancy provided by the multiple‐element receiver array configuration. Physical‐array subimages are used for the estimation of

Imaging using synthetic aperture techniques is a mature under the guise of Project Wolverine to develop a high-resolution technique with a host of different reconstruction algorithms available. combat-surveillance radar system [4]. The ability of SAR to Often the same basic algorithm has a different

## Abstract A formulation for ground‐penetrating radar (GPR) imaging using the synthetic‐aperture concept is introduced. We show that it is possible to form a 3D image by inverse Fourier transforming the multifrequency, multispatial scattered field. The proposed algorithm for GPR imaging is tested

## Abstract In the classical B‐Scan ground penetrating radar (GPR) imagery, unprocessed image domain data exhibit undesired hyperbolic effects and therefore have low resolution features. To solve this problem, various focusing or migration techniques have been developed and applied to focus the sca

Alntract--This paper presents a new estimation algorithm, which is essentially a modification of the exponentially weighted recursive least squares algorithm (EW-RLS), for systems with bounded disturbances. Assuming knowledge of a disturbance upper bound, the algorithm's derivation is performed by m