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Main Authors: Na, Han, Wang, Quanfeng, Saurer, Matthias, Tong, Meisong, Eibert, Thomas F.
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2605.10081
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author Na, Han
Wang, Quanfeng
Saurer, Matthias
Tong, Meisong
Eibert, Thomas F.
author_facet Na, Han
Wang, Quanfeng
Saurer, Matthias
Tong, Meisong
Eibert, Thomas F.
contents A ray-tracing (RT) enhanced back-projection algorithm (RT-BPA) for microwave imaging in multipath environments is presented. By tightly incorporating the concept of ray-tracing into a generalized version of traditional BPA, this method ensures improved image quality by addressing two important issues. First, when the line-of-sight (LOS) path is obstructed, reflected paths, if available, enable imaging of hidden targets, which extends the applicability of the standard BPA beyond its normal use case. Second, the consideration of reflected ray-paths is equivalent to virtually increasing the aperture size, thus, improving image resolution without requiring new measurements. A key factor in achieving these advancements is the consideration of the vector nature of electromagnetic waves with polarization-dependent phase compensation, which is often ignored when employing a scalar-wave based formulation of the electromagnetic vector field. In addition, the presented method employs a shooting and bouncing rays (SBR) framework, offering better flexibility compared to manual path evaluation in existing RT-BPAs.
format Preprint
id arxiv_https___arxiv_org_abs_2605_10081
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Polarization-Aware Ray-Tracing Enhanced Back-Projection Algorithm for Microwave Imaging in Complex Multipath Environments
Na, Han
Wang, Quanfeng
Saurer, Matthias
Tong, Meisong
Eibert, Thomas F.
Image and Video Processing
A ray-tracing (RT) enhanced back-projection algorithm (RT-BPA) for microwave imaging in multipath environments is presented. By tightly incorporating the concept of ray-tracing into a generalized version of traditional BPA, this method ensures improved image quality by addressing two important issues. First, when the line-of-sight (LOS) path is obstructed, reflected paths, if available, enable imaging of hidden targets, which extends the applicability of the standard BPA beyond its normal use case. Second, the consideration of reflected ray-paths is equivalent to virtually increasing the aperture size, thus, improving image resolution without requiring new measurements. A key factor in achieving these advancements is the consideration of the vector nature of electromagnetic waves with polarization-dependent phase compensation, which is often ignored when employing a scalar-wave based formulation of the electromagnetic vector field. In addition, the presented method employs a shooting and bouncing rays (SBR) framework, offering better flexibility compared to manual path evaluation in existing RT-BPAs.
title Polarization-Aware Ray-Tracing Enhanced Back-Projection Algorithm for Microwave Imaging in Complex Multipath Environments
topic Image and Video Processing
url https://arxiv.org/abs/2605.10081