气体传感器阵列灭蟑器对蜜蜂侵害的分类

A. Szczurek, M. Maciejewska, B. Bak, Jakub Wilk, J. Wilde, M. Siuda
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摘要

破坏瓦螨对蜂群的侵扰呈指数增长。在早期发现这种疾病是很重要的。然而,后期侵染阶段的区分也是实用的。我们建议将蜂窝空气的气体传感器阵列测量作为信息来源,这可能对这类评估有用。蜜蜂侵扰分为“低”、“中”和“高”三类,“低”和“中到高”两类,另外两类:“高”和“中到低”。将气体传感器阵列对蜂窝空气的响应作为分类器的输入数据,对分类器进行分类训练。分析结果表明,“低”类别的确定最有效,错误率约为10%。“高”类别最难确定。在这种情况下,最低错误率约为20%。基于我们的分析,基于二值分类的方法更受青睐,支持向量机优于分类树集合。研究发现,气体传感器暴露于蜂巢空气的最初几分钟足以获得有效的分类。本文提出的基于蜂箱空气传感和气体传感器的静脉曲张检测方法具有创新性,在养蜂业中具有很大的应用潜力。
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Classification of Honeybee Infestation by Varroa Destructor using Gas Sensor Array
Infestation of bee colony with Varroa destructor proceeds exponentially. It is important to detect the disease at its very early stage. However, the distinction of later infestation stages is also practical. We proposed to apply gas sensor array measurements of beehive air as the source of information which may be useful for this kind of assessment. Honeybee infestation was classified into three categories: ‘low’, ‘medium’ and ‘high’, two categories: ‘low’ and ‘medium to high’, and another two categories: ‘high’ and ‘medium to low’. Responses of gas sensor array to beehive air were used as the input data of the classifier, which was trained to distinguish the categories. The results of the analysis demonstrated that category ‘low’ was determined most effectively, with an error rate of about 10%. Category ‘high’ was most difficult to determine. In this case the lowest error rate was about 20%. Based on our analysis, the approach based on binary classification was favoured and SVM outperformed ensemble of classification trees. It was found, that first several minutes of gas sensors exposure to beehive air were sufficient to attain effective classification. The presented method of varroosis determination, based on beehive air sensing with gas sensors is innovative and has high potential of application in beekeeping.
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