Sensors, Vol. 25, Pages 6578: The Aggregated Electromagnetic Vortex Wave and Multi-Modal Imaging Experiment

Sensors doi: 10.3390/s25216578

Authors:
Caipin Li
Xiaomin Tan
Shitao Zhu
Shengyuan Li
Dong You
Jiao Liu
Wencan Peng
Tao Wu
Yifeng He
Kang Liu
Zhuo Zhang

Electromagnetic vortex waves have received widespread attention in many fields due to their unique physical characteristics. The information dimension provided by vortex electromagnetic waves brings possibilities for future breakthroughs in radar detection and imaging. This article proposes a multi-modal aggregated electromagnetic vortex wave generation method for the first time. Moreover, it conducts vehicle imaging experiments to verify the method’s practicality. The core element of the experiment is to simultaneously generate multiple-mode electromagnetic vortex wave signals with energy accumulation and perform fusion processing. Firstly, multiple orbital angular momentum (OAM) modes are superimposed to generate a mode group, and the initial phase of the modes in the mode group is further controlled to synthesize aggregated electromagnetic vortex waves. Based on the generation of aggregated vortex waves, imaging experiments were conducted using a vehicle-mounted setup. The experimental procedure and multi-modal fusion results were presented. It has been shown that the energy of the main lobe signal of the image target is enhanced by utilizing multi-modal vortex radar information fusion, which can improve the signal-to-noise ratio of the target imaging.

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Caipin Li www.mdpi.com