Imaging a Moving Point Source from Multifrequency Data Measured at One and Sparse Observation Points (Part II): Near-Field Case in 3D

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-07-03 DOI:10.1137/23m162260x
Guanqiu Ma, Hongxia Guo, Guanghui Hu
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Abstract

SIAM Journal on Imaging Sciences, Volume 17, Issue 3, Page 1377-1414, September 2024.
Abstract.In this paper, we introduce a frequency-domain approach to extract information on the trajectory of a moving point source. The method hinges on the analysis of multifrequency near-field data recorded at one and sparse observation points in three dimensions. The radiating period of the moving point source is supposed to be supported on the real axis and a priori known. In contrast to inverse stationary source problems, one needs to classify observable and non-observable measurement positions. The analogues of these concepts in the far-field regime were first proposed in the authors’ previous paper [SIAM J. Imaging Sci., 16 (2023), pp. 1535–1571]. In this paper we shall derive the observable and non-observable measurement positions for straight and circular motions in [math]. In the near-field case, we verify that the smallest annular region centered at an observable position that contains the trajectory can be imaged for an admissible class of orbit functions. Using the data from sparse observable positions, it is possible to reconstruct the [math]-convex domain of the trajectory. Intensive 3D numerical tests with synthetic data are performed to show effectiveness and feasibility of this new algorithm.
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通过在一个观测点和稀疏观测点测量的多频数据对移动点源进行成像(第二部分):三维近场案例
SIAM 影像科学期刊》,第 17 卷第 3 期,第 1377-1414 页,2024 年 9 月。 摘要:本文介绍了一种提取移动点源轨迹信息的频域方法。该方法的关键在于分析三维稀疏观测点记录的多频近场数据。移动点源的辐射周期假定支持实轴,并且是先验已知的。与反固定源问题相反,我们需要对可观测和不可观测的测量位置进行分类。作者在之前的论文[SIAM J. Imaging Sci.,16 (2023),第 1535-1571 页]中首次提出了这些概念在远场机制中的类比。本文将推导出 [math] 中直线运动和圆周运动的可观测和不可观测测量位置。在近场情况下,我们验证了以包含轨迹的可观测位置为中心的最小环形区域可以为一类可接受的轨道函数成像。利用来自稀疏可观测位置的数据,可以重建轨迹的[数学]凸域。我们利用合成数据进行了密集的三维数值测试,以显示这种新算法的有效性和可行性。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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