ANALYSIS OF BIOLOGICAL DATA OF CATTLE AND WAVELET TRANSFORM BASED PREDICTION FOR OPTIMAL INSEMINATION PHASE

Takumi Asaoka, Hiroto Noma, Tatsuya Komatsu, H. Oya, R. Miura, Koji Yoshioka
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Abstract

For farmers who maintain dairy cattle, artificial insemination (AI) is one of important events in cattle, because it may lead to lose money by missing out on AI. However, the accuracy for detection depends on the time and number of observations when the estrus behavior and signs for cattle during the estrus season are visually assessed by experts and farmers, and the detection accuracy via experts and farmers is approximately 60%. For farmers, it is obvious that improving reproductive efficiency can save time and money. Therefore, various detection strategies for AI timing such as pedometers and methods based on observation of hormone in estrus have been well studied. Additionally, a detection strategy based on variations for temperature corresponding to ovulation has also been presented. In particular, the accuracy of detection of AI timing based on monitoring the vaginal temperature is greater than that for other methods such as pedometer and so on, i.e., it seems that an optimal timing of AI based on vaginal temperature in cattle is more effective. Although there are some existing results for detection of AI timing based on vaginal temperature and vaginal electrical resistance data, further improvement of accuracy is required in practical use. In this paper, we propose an estimation method for the optimal AI timing by analyzing both vaginal temperature and vaginal electrical resistance data. In our approach, as preprocessing, MaMeMi filter and Gaussian kernel smoother are newly introduced for the purpose of reducing the effect of circadian rhythms and various noises. Moreover, we adopt continuous wavelet transformation to analyze biological data, and NSI (Normalized Spectrum Index) is calculated. Finally, the optimal timing for AI can be estimated by using the Mahalanobis distance. In this paper, we present the proposed estimation algorithm and evaluate the proposed approach.
牛的生物数据分析和基于小波变换的最佳授精期预测
对于饲养奶牛的农民来说,人工授精(AI)是奶牛的重要事件之一,因为错过人工授精可能会导致损失。然而,检测的准确性取决于专家和养殖户目测发情期牛的发情行为和体征的时间和观察次数,专家和养殖户的检测准确率约为 60%。对于农民来说,提高繁殖效率显然可以节省时间和金钱。因此,对人工授精时间的各种检测策略,如计步器和基于发情激素观察的方法,都进行了深入研究。此外,还提出了一种基于排卵期温度变化的检测策略。其中,基于阴道温度监测的人工授精时间检测准确率高于计步器等其他方法,也就是说,基于阴道温度的牛人工授精最佳时间似乎更为有效。虽然目前已有一些基于阴道温度和阴道电阻数据的人工授精时机检测结果,但在实际应用中还需要进一步提高准确性。本文提出了一种通过分析阴道温度和阴道电阻数据来估算最佳人工授精时间的方法。作为预处理,我们新引入了 MaMeMi 滤波器和高斯核平滑器,以减少昼夜节律和各种噪声的影响。此外,我们还采用连续小波变换来分析生物数据,并计算归一化频谱指数(NSI)。最后,利用 Mahalanobis 距离估算出人工智能的最佳时机。在本文中,我们介绍了所提出的估算算法,并对所提出的方法进行了评估。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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