基于广义高斯分布的数据驱动机载贝叶斯前视超分辨率成像

IF 1.3 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Hongmeng Chen, Zeyu Wang, Yingjie Zhang, X. Jin, Wenquan Gao, Jizhou Yu
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引用次数: 1

摘要

机载前视雷达(AFLR)在自动驾驶、海上监视、机场监视和制导等军事和民用领域的广泛应用,使其越来越受到重视。近年来,稀疏反褶积技术在AFLR中受到了广泛的关注。然而,随着成像场景的复杂性,方位角分辨率性能逐渐降低。针对复杂成像场景,提出了一种基于广义高斯分布(GGD- Bayesian)的数据驱动机载贝叶斯前视超分辨率成像算法。利用广义高斯分布来描述成像场景的稀疏度信息,这对于自适应适应不同的成像场景是至关重要的。基于贝叶斯框架,建立了最大后验准则下的前视成像数学模型。为解决上述优化问题,推导并应用了准牛顿算法。本文的主要贡献在于前视成像过程中稀疏度参数的自动选择。模拟数据的性能评估证明了我们提出的GGD-贝叶斯算法在复杂场景下的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Data-driven airborne bayesian forward-looking superresolution imaging based on generalized Gaussian distribution
Airborne forward-looking radar (AFLR) has been more and more impoatant due to its wide application in the military and civilian fields, such as automatic driving, sea surveillance, airport surveillance and guidance. Recently, sparse deconvolution technique has been paid much attention in AFLR. However, the azimuth resolution performance gradually decreases with the complexity of the imaging scene. In this paper, a data-driven airborne Bayesian forward-looking superresolution imaging algorithm based on generalized gaussian distribution (GGD- Bayesian) for complex imaging scene is proposed. The generalized gaussian distribution is utilized to describe the sparsity information of the imaging scene, which is quite essential to adaptively fit different imaging scenes. Moreover, the mathematical model for forward-looking imaging was established under the maximum a posteriori (MAP) criterion based on the Bayesian framework. To solve the above optimization problem, quasi-Newton algorithm is derived and used. The main contribution of the paper is the automatic selection for the sparsity parameter in the process of forward-looking imaging. The performance assessment with simulated data has demonstrated the effectiveness of our proposed GGD- Bayesian algorithm under complex scenarios.
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