Full-Polarization Scattering Center Extraction and Parameter Estimation: P-ESPRIT Algorithm

Parabolic-reflector antennas (PRAs), usually possessing rotation, are a particular type of targets of potential interest to the synthetic aperture radar (SAR) community. This paper is aimed to investigate PRA’s scattering characteristics and then to extract PRA’s parameters from SAR returns, for supporting image interpretation and target recognition. We at first obtain both closed-form and numeric solutions to PRA’s backscattering by geometrical optics (GO), physical optics, and graphical electromagnetic computation, respectively. Based on the GO solution, a migratory scattering center model is at first presented for representing the movement of the specular point with aspect angle, and then a hybrid model, named the migratory/micromotion scattering center (MMSC) model, is proposed for characterizing a rotating PRA in the SAR geometry, which incorporates PRA’s rotation into its migratory scattering center model. Additionally, we in detail analyze PRA’s radar characteristics on radar cross-section, high-resolution range profiles, time-frequency distribution, and 2D images, which also confirm the models proposed. A maximal likelihood estimator is developed for jointly solving the MMSC model for PRA’s multiple parameters by optimization. By exploiting the aforementioned characteristics, the coarse parameter estimation guarantees convergency upon global minima. The signatures recovered can be favorably utilized for SAR image interpretation and target recognition.

Download Full-text

Performance Analysis of ESPRIT Algorithm for Smart Antenna System

International Journal of Communication Networks and Security ◽

10.47893/ijcns.2012.1032 ◽

2012 ◽

pp. 34-37

Author(s):

Chetan R. Dongarsane ◽

A.N. Jadhav ◽

Swapnil M. Hirikude

Keyword(s):

Parameter Estimation ◽

Sensor Array ◽

Smart Antenna ◽

Computational Cost ◽

Antenna System ◽

Parameter Estimates ◽

Signal Parameter ◽

Translational Invariance ◽

Rotational Invariant ◽

Esprit Algorithm

ESPRIT is a high-resolution signal parameter estimation technique based on the translational invariance structure of a sensor array. The ESPRIT algorithm is an attractive solution to many parameter estimation problems due to its low computational cost. The performance of DOA using estimation signal parameter via a rotational invariant technique is investigated in this paper. By exploiting invariance’s designed into the sensor array, parameter estimates are obtained directly, without knowledge of the array response and without computation or search of some spectral measure. The exact number of samples and elements used is the most important parameter in the algorithms in order to sustain the accuracy of the direction of arrival of the incident signals. This algorithm is more robust with respect to array imperfections than MUSIC.

Download Full-text

Parameter estimation of GTD model and RCS extrapolation based on a modified 3D-ESPRIT algorithm

Journal of Systems Engineering and Electronics ◽

10.23919/jsee.2020.000065 ◽

2020 ◽

Vol 31 (6) ◽

pp. 1206-1215

Author(s):

Zheng Shuyu ◽

Zhang Xiaokuan ◽

Zhao Weichen ◽

Zhou Jianxiong ◽

Zong Binfeng ◽

...

Keyword(s):

Parameter Estimation ◽

Esprit Algorithm

Download Full-text

Parameter Estimation of Attribute Scattering Center Based on Water Wave Optimization Algorithm

Scientific Programming ◽

10.1155/2021/6733510 ◽

2021 ◽

Vol 2021 ◽

pp. 1-6

Author(s):

Zhangkai Zhou ◽

Yihan Li

Keyword(s):

Parameter Estimation ◽

Water Wave ◽

Single Scattering ◽

High Energy ◽

Sar Image ◽

Original Image ◽

Image Domain ◽

Scattering Center ◽

Parameterized Model ◽

Center Parameter

For the problem of attribute scattering center parameter estimation in synthetic aperture radar (SAR) image, a method based on the water wave optimization (WWO) algorithm is proposed. First, the segmentation and decoupling of high-energy regions in SAR image are performed in the image domain to obtain the representation of a single scattering center. Afterwards, based on the parameterized model of the attribute scattering center, an optimization problem is constructed to search for the optimal parameters of the separated single scattering center. In this phase, the WWO algorithm is introduced to optimize the parameters. The algorithm has powerfully global and local searching capabilities and avoids falling into local optimum while ensuring the optimization accuracy. Therefore, the WWO algorithm could ensure the reliability of scattering center parameter estimation. The single scattering center after solution is eliminated from the original image and the residual image is segmented into high-energy regions, so the parameters of the next scattering center are estimated sequentially. Finally, the parameter set of all scattering centers in the input SAR image can be obtained. In the experiments, firstly, the parameter estimation verification is performed based on the SAR images in the MSTAR dataset. The comparison of the parameter estimation results with the original image and the reconstruction based on the estimated parameter set reflect the effectiveness of the proposed method. In addition, the experiment is also conducted using the SAR target recognition algorithms based on the estimated attribute parameters. By comparing the recognition performance with other parameter estimation algorithms under the same conditions, the performance superiority of the proposed method in attribute scattering center parameter estimation is further demonstrated.

Download Full-text

Scattering center parameter estimation using a polynomial model for the amplitude aspect dependence

10.1117/12.478695 ◽

2002 ◽

Author(s):

Roland Jonsson ◽

Anna Gennel ◽

David Loesaus ◽

Fredrik Dicander

Keyword(s):

Parameter Estimation ◽

Polynomial Model ◽

Scattering Center ◽

Center Parameter

Download Full-text

Joint Scattering Center Enumeration and Parameter Estimation in GTD Model

IEEE Transactions on Antennas and Propagation ◽

10.1109/tap.2020.2975197 ◽

2020 ◽

Vol 68 (6) ◽

pp. 4786-4798

Author(s):

Mahdi Ghasemi ◽

Abbas Sheikhi

Keyword(s):

Parameter Estimation ◽

Scattering Center

Download Full-text

The influence of different PAST-based subspace trackers on DaPT parameter estimation

Advances in Radio Science ◽

10.5194/ars-10-153-2012 ◽

2012 ◽

Vol 10 ◽

pp. 153-158

Author(s):

M. Lechtenberg ◽

J. Götze

Keyword(s):

Parameter Estimation ◽

Frequency Estimation ◽

Estimation Algorithm ◽

Time Varying ◽

The Past ◽

Vector Decomposition ◽

Parameter Estimation Algorithm ◽

Varying Environments ◽

Esprit Algorithm ◽

Subspace Separation

Abstract. In the context of parameter estimation, subspace-based methods like ESPRIT have become common. They require a subspace separation e.g. based on eigenvalue/-vector decomposition. In time-varying environments, this can be done by subspace trackers. One class of these is based on the PAST algorithm. Our non-linear parameter estimation algorithm DaPT builds on-top of the ESPRIT algorithm. Evaluation of the different variants of the PAST algorithm shows which variant of the PAST algorithm is worthwhile in the context of frequency estimation.

Download Full-text