一种用于标准化和解释奶牛无线生物传感器产生的活动数据的统计方法

Wang-Hee Lee, Mingyung Lee, Dae-Hyun Lee, Jae-Min Jung, Hyunjin Cho, Seongwon Seo
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引用次数: 0

摘要

近年来,活性生物传感器已被用于奶牛生理状态的测量和诊断。然而,由于市场上可获得的商业化活动生物传感器种类繁多,生物传感器产生的活动数据需要标准化,以预测动物的状态并做出相关决策。因此,本研究的目的是开发一种标准化方法,以适应来自不同传感器的活动测量。对12头荷斯坦奶牛进行了为期5个月的监测,从4种类型的传感器收集了12 862个活动数据。在通过相关和回归分析确认传感器相似的循环活动模式后,采用伽马分布计算每个生物传感器值的累积概率。然后,根据每个级别的定义比例将活动值分配到三个级别(即空闲,正常和活动),并比较四个传感器在每个级别的值。结果表明,属于同一水平的测量数相似,在特定阈值下差异小于10%。此外,4个生物传感器中的3个内部算法产生的热警报中有87%以上可以被分配到活动水平,这表明目前的标准化方法成功地整合了来自不同生物传感器的活动测量。所开发的基于概率的标准化方法有望适用于其他牲畜生物传感器,这将导致精确畜牧业模型和解决方案的发展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A statistical method to standardize and interpret the activity data generated by wireless biosensors in dairy cows
Activity biosensors have been used recently to measure and diagnose the physiological status of dairy cows. However, owing to the variety of commercialized activity biosensors available in the market, activity data generated by a biosensor need to be standardized to predict the status of an animal and make relevant decisions. Hence, the objective of this study was to develop a standardization method for accommodating activity measurements from different sensors. Twelve Holstein dairy cows were monitored to collect 12 862 activity data from four types of sensors over five months. After confirming similar cyclic activity patterns from the sensors through correlation and regression analyses, the gamma distribution was employed to calculate the cumulative probability of the values of each biosensor. Then, the activity values were assigned to three levels (i.e., idle, normal and active) based on the defined proportion of each level, and the values at each level from the four sensors were compared. The results showed that the number of measurements belonging to the same level was similar, with less than a 10% difference at a specific threshold value. In addition, more than 87% of the heat alerts generated by the internal algorithm of three of the four biosensors could be assigned to the active level, suggesting that the current standardization method successfully integrated the activity measurements from different biosensors. The developed probability-based standardization method is expected to be applicable to other biosensors for livestock, which will lead to the development of models and solutions for precision livestock farming.
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