Broiler sound signal filtering method based on improved wavelet denoising and effective pulse extraction

•First seriously consider the signal filtering problem in broiler health monitoring research.•Newly propose a wavelet denoising algorithm for broiler sound signal filtering.•Newly propose the continuous differentiable threshold function and scale threshold.•Newly propose a two-stage variable multi-t...

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Bibliographic Details
Published in:Computers and electronics in agriculture 2024-06, Vol.221, p.108948, Article 108948
Main Authors: Tao, Weige, Sun, Zhigang, Wang, Guotao, Xiao, Shuyan, Liang, Bao, Zhang, Min, Song, Shoulai
Format: Article
Language:English
Subjects:
agriculture
algorithms
Broiler sound signal
Continuous differentiable threshold function
data collection
electronics
Feature extraction
signal-to-noise ratio
Variable multi-threshold
wavelet
Wavelet denoising
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Summary:•First seriously consider the signal filtering problem in broiler health monitoring research.•Newly propose a wavelet denoising algorithm for broiler sound signal filtering.•Newly propose the continuous differentiable threshold function and scale threshold.•Newly propose a two-stage variable multi-threshold pulse extraction algorithm.•Newly propose to evaluate signal filtering methods using classification accuracy. There is little attention paid to signal filtering in existing broiler health monitoring or broiler sound signal classification research, and the only few studies still have issues such as lack of specific, in-depth, and specialized details. In response to these problems, the authors conducted a depth analysis of the signal characteristics of effective signal components and noises, and proposed a broiler sound signal filtering method based on improved wavelet denoising and effective pulse extraction. This method consists of two parts. The first part is wavelet denoising, which is used to remove the widely distributed noises in broiler sound signals. Specifically, a wavelet denoising algorithm based on continuous differentiable threshold function and scale threshold has been proposed. The disadvantages in existing hard threshold function, soft threshold function, and semi-soft threshold function have been effectively addressed, and the smoothness of broiler sound signals has been ensured. The second part is pulse extraction processing, which is used to remove sudden noises that appears as independent pulses in broiler sound signals. Specifically, a two-stage variable multi-threshold pulse extraction algorithm has been proposed. The main advantages of existing three-threshold pulse extraction algorithm and double-threshold pulse extraction algorithm have been referenced, the threshold setting standard has been clarified, the continuous multi-pulse problem has been given special attention, and the effective signal components in broiler sound signals have been accurately extracted. In this way, the noises in broiler sound signals were removed, and the effective signal components were highlighted. The signal-to-noise ratio (SNR) and root mean square error (RMSE) from signal detection field, as well as the classification accuracy and F1-score from machine learning field, were used to comprehensively evaluate the effect of the signal filtering method proposed in this paper. A large number of tests shown that, compared to existing signal filtering metho
ISSN:0168-1699
DOI:10.1016/j.compag.2024.108948