AI Article Synopsis
- This paper introduces a novel method for 2-D imaging with a MIMO radar system using two perpendicular linear arrays, simplifying the imaging process.
- It utilizes Fourier integral processing for imaging formulation and examines key parameters like cross-range resolution and antenna size.
- Unlike traditional ISAR imaging, which relies on multiple snapshots, this approach samples echoes in a single snapshot, eliminating the need for complex motion compensation and range alignment.
Article Abstract
This paper presents a system model and method for the 2-D imaging application via a narrowband multiple-input multiple-output (MIMO) radar system with two perpendicular linear arrays. Furthermore, the imaging formulation for our method is developed through a Fourier integral processing, and the parameters of antenna array including the cross-range resolution, required size, and sampling interval are also examined. Different from the spatial sequential procedure sampling the scattered echoes during multiple snapshot illuminations in inverse synthetic aperture radar (ISAR) imaging, the proposed method utilizes a spatial parallel procedure to sample the scattered echoes during a single snapshot illumination. Consequently, the complex motion compensation in ISAR imaging can be avoided. Moreover, in our array configuration, multiple narrowband spectrum-shared waveforms coded with orthogonal polyphase sequences are employed. The mainlobes of the compressed echoes from the different filter band could be located in the same range bin, and thus, the range alignment in classical ISAR imaging is not necessary. Numerical simulations based on synthetic data are provided for testing our proposed method.
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| http://dx.doi.org/10.1109/TIP.2009.2039374 | DOI Listing |
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