Journal ArticleDOI
Radar imaging from a distorted array: The radio camera algorithm and experiments
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TLDR
Its algorithm for imaging ground-based targets is described and experimental results are given for a 3 cm wavelength demonstration system using a distorted 27-m random sparse array, confirming the validity of the technique.Abstract:
High angular resolution radar imaging may be achieved with a large-aperture antenna even if the aperture is distorted, provided that adaptive signal processing compensates for the distortion. The radio camera is an instrument designed for this purpose. Its algorithm for imaging ground-based targets is described and experimental results are given for a 3 cm wavelength demonstration system using a distorted 27-m random sparse array. The measured beamwidth of 1 mrad conformed to theory, confirming the validity of the technique. Extension of the algorithm to accommodate isolated targets such as aircraft and ships also is discussed.read more
Citations
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Weighted least-squares estimation of phase errors for SAR/ISAR autofocus
Wei Ye,Tat Soon Yeo,Zheng Bao +2 more
TL;DR: A new method of phase error estimation that utilizes the weighted least-squares (WLS) algorithm is presented for synthetic aperture radar (SAR)/inverse SAR (ISAR) autofocus applications, and it is robust for many kinds of scene content.
Journal ArticleDOI
Microwave imaging of aircraft
TL;DR: The signal processing algorithm is described and X-band (3-cm)-wavelength experiments demonstrate its success on commercial aircraft flying into Philadelphia International Airport.
Journal ArticleDOI
Radar Coincidence Imaging: an Instantaneous Imaging Technique With Stochastic Signals
TL;DR: An instantaneous microwave-radar imaging technique is proposed to obtain focused high-resolution images of targets without motion limitation by shortening the imaging time to even a pulse width without resolution deterioration so as to improve the performance of processing noncooperative targets and simplifying the receiver complexity.
Journal ArticleDOI
Moving target imaging and trajectory computation using ISAR
Gilles Y. Delisle,Haiqing Wu +1 more
TL;DR: Novel algorithms for moving target imaging and trajectory computation using a two-receiver radar are presented and the angular trajectory equation is solved using a linear least squares method combined with a unique phase-unwrapping technique.
Journal ArticleDOI
Self-cohering large antenna arrays using the spatial correlation properties of radar clutter
E.H. Attia,B.D. Steinberg +1 more
TL;DR: In this paper, a technique for self-calibrating a large antenna array system in the absence of a beamforming point source that uses the spatial correlation properties of radar clutter is presented.
References
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Journal ArticleDOI
Mathematical analysis of random noise
TL;DR: In this paper, the authors used the representations of the noise currents given in Section 2.8 to derive some statistical properties of I(t) and its zeros and maxima.
Journal ArticleDOI
A mathematical theory of antenna arrays with randomly spaced elements
TL;DR: In this article, it was shown that the required number of elements is closely related to the desired sidelobe level and is almost independent of the aperture dimension, and the resolution or the beamwidth depends mainly on the aperture dimensions.
Journal ArticleDOI
Design approach for a high-resolution microwave imaging radio camera
TL;DR: Based on this design approach, a 1000 -ft L-band radio camera is under development at the Valley Forge Research Center of the Moore School and the status of current development of the device is discussed.
Journal ArticleDOI
Tolerances in self-cohering antenna arrays of arbitrary geometry
S. Taheri,B. Steinberg +1 more
TL;DR: Basic relations pertaining to the open-loop scanning of adaptive antenna arrays of arbitrary geometry are derived for both far-field and near-field scanning problems, and the transition between the two cases and the required accuracy in the knowledge of the same distance are explored.
Journal ArticleDOI
First experimental results from the Valley Forge radio camera program
Bernard D. Steinberg,E.N. Powers,D. Carlson,B. Meagher,R.S. Berkowitz,C.N. Dorny,S.H. Seeleman +6 more
TL;DR: An X-band high angular resolution imaging radar experiment using a broadly distributed antenna array has been conducted and adaptive beam-forming is employed to compensate for the distortion in the aperture.
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