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Multi-Target Tracking Using Windowed Fourier Single-Pixel Imaging
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The single-pixel imaging (SPI) technique enables the tracking of moving targets at a high frame rate. However, when extended to the problem of multi-target tracking, there is no effective solution using SPI yet. Thus, a multi-target tracking method using windowed Fourier single-pixel imaging (WFSI) is proposed in this paper. The WFSI technique uses a series of windowed Fourier basis patterns to illuminate the target. This method can estimate the displacements of K independently moving targets by implementing 6K measurements and calculating 2K windowed Fourier coefficients, which is a measurement method with low redundancy. To enhance the capability of the proposed method, we propose a joint estimation approach for multi-target displacement, which solves the problem where different targets in close proximity cannot be distinguished. Using the independent and joint estimation approaches, multi-target tracking can be implemented with WFSI. The accuracy of the proposed multi-target tracking method is verified by numerical simulation to be less than 2 pixels. The tracking effectiveness is analyzed by a video experiment. This method provides, for the first time, an effective idea of multi-target tracking using SPI.
Title: Multi-Target Tracking Using Windowed Fourier Single-Pixel Imaging
Description:
The single-pixel imaging (SPI) technique enables the tracking of moving targets at a high frame rate.
However, when extended to the problem of multi-target tracking, there is no effective solution using SPI yet.
Thus, a multi-target tracking method using windowed Fourier single-pixel imaging (WFSI) is proposed in this paper.
The WFSI technique uses a series of windowed Fourier basis patterns to illuminate the target.
This method can estimate the displacements of K independently moving targets by implementing 6K measurements and calculating 2K windowed Fourier coefficients, which is a measurement method with low redundancy.
To enhance the capability of the proposed method, we propose a joint estimation approach for multi-target displacement, which solves the problem where different targets in close proximity cannot be distinguished.
Using the independent and joint estimation approaches, multi-target tracking can be implemented with WFSI.
The accuracy of the proposed multi-target tracking method is verified by numerical simulation to be less than 2 pixels.
The tracking effectiveness is analyzed by a video experiment.
This method provides, for the first time, an effective idea of multi-target tracking using SPI.
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