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Gradient-based adaptive wavelet de-noising method for photoacoustic imaging in vivo
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Photoacoustic imaging (PAI) has been applied to many biomedical
applications over the past decades. However, the received PA signal
usually suffers from poor signal-to-noise ratio (SNR). Conventional
solution of employing higher-power laser, or doing long-time signal
averaging, may raise the system cost, time consumption, and tissue
damage. Another strategy is de-noising algorithm design. In this paper,
we propose a new de-noising method, termed gradient-based adaptive
wavelet de-noising, which sets the energy gradient mutation point of
low-frequency wavelet components as the threshold. We conducted
simulation, ex vivo and in vivo experiments to validate the performance
of the algorithm. The quality of de-noised PA image/signal by our
proposed algorithm has improved by 20%-40%, in comparison to the
traditional signal denoising algorithms, which produces better contrast
and clearer details. The proposed de-noising method provides potential
to improve the SNR of PA signal under single-shot low-power laser
illumination for biomedical applications
in vivo
.
Title: Gradient-based adaptive wavelet de-noising method for photoacoustic imaging in vivo
Description:
Photoacoustic imaging (PAI) has been applied to many biomedical
applications over the past decades.
However, the received PA signal
usually suffers from poor signal-to-noise ratio (SNR).
Conventional
solution of employing higher-power laser, or doing long-time signal
averaging, may raise the system cost, time consumption, and tissue
damage.
Another strategy is de-noising algorithm design.
In this paper,
we propose a new de-noising method, termed gradient-based adaptive
wavelet de-noising, which sets the energy gradient mutation point of
low-frequency wavelet components as the threshold.
We conducted
simulation, ex vivo and in vivo experiments to validate the performance
of the algorithm.
The quality of de-noised PA image/signal by our
proposed algorithm has improved by 20%-40%, in comparison to the
traditional signal denoising algorithms, which produces better contrast
and clearer details.
The proposed de-noising method provides potential
to improve the SNR of PA signal under single-shot low-power laser
illumination for biomedical applications
in vivo
.
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