Keara O’Reilly , Borbala Foris , Courtney L. Daigle , Gordon E. Carstens
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A trained video observer recorded all feed bunk replacement events (when an actor animal displaced a reactor animal from the feed bunk and occupied the same feed bunk within a specified time interval, termed as the replacement criterion) and other agonistic activities at the feed bunk during a 4-d period. The Vytelle SENSE feed intake measurement system recorded the start and end timestamps of individual bunk visit <strong>(BV)</strong> events of animals. An algorithm was developed to determine replacement events based on the start and end times of consecutive BV events. Using video observation as the gold standard, the recall, precision, and F-score of the algorithm was calculated corresponding to time intervals from 1 to 60 s. The optimum replacement criterion was determined to be ≤ 18 s and ≤ 22 s for pens 1 and 2 respectively. The recall, precision, and F-score of the algorithm using these replacement criterions were high (> 0.75). A competition index was computed for each steer, calculated as the number of actor-initiated events divided by the number of actor and reactor events at the feed bunk. Spearman’s rank correlations (r<sub>s</sub>) between total visually observed agonistic interactions at the feed bunk and the replacement events detected from the electronic feeding event data using the algorithm and replacement criterion of the respective pen was determined. There were strong correlations (r<sub>s</sub> ≥ 0.71; <em>P</em> < 0.05) between the observed and electronic values for the number of actor and reactor events, and the competition index. These results demonstrate the potential to quantify disruptive feed bunk replacement events in confined beef cattle using electronically collected feeding event data from the Vytelle SENSE feed intake measurement system.</p></div>","PeriodicalId":8222,"journal":{"name":"Applied Animal Behaviour Science","volume":"277 ","pages":"Article 106350"},"PeriodicalIF":2.2000,"publicationDate":"2024-08-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S0168159124001989/pdfft?md5=61fc72aab7c29ca9d6f2debac2f7befd&pid=1-s2.0-S0168159124001989-main.pdf","citationCount":"0","resultStr":"{\"title\":\"Development of an algorithm to detect feed bunk replacement events in growing cattle from feeding event data acquired by an electronic feed intake measurement system\",\"authors\":\"Keara O’Reilly , Borbala Foris , Courtney L. Daigle , Gordon E. 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引用次数: 0
摘要
肉眼观察牛的竞争性采食行为与动物的生产力、健康和社会等级有关。然而,人工肉眼观察非常耗时,限制了可评估的动物数量。本研究的目的是开发和评估一种算法,利用从 Vytelle SENSE 采食量测量系统获取的采食事件数据来检测破坏性的饲料铺位替换事件。饲喂生长日粮的杂交肉牛(N = 20)分别饲养在两个圈舍中的一个,每个圈舍配备三个电子料仓和一个视频记录器。一名训练有素的视频观察者记录了4天内所有的料槽替换事件(当行为动物将反应动物从料槽中赶走,并在规定的时间间隔内占据同一料槽,称为替换标准)以及料槽中的其他争斗活动。Vytelle SENSE 饲料摄入量测量系统记录了每只动物探访料仓 (BV) 事件的开始和结束时间戳。根据连续 BV 事件的开始和结束时间,开发了一种算法来确定替换事件。以视频观察作为金标准,计算了算法的召回率、精确度和 F 分数,时间间隔为 1 至 60 秒。对笔 1 和笔 2 而言,最佳替换标准分别为≤18 秒和≤22 秒。使用这些替换标准的算法的召回率、精确率和 F 分数都很高(> 0.75)。为每头母牛计算了竞争指数,计算方法是行为者发起的事件数除以饲料铺上行为者和反应者事件数。利用算法和各自栏舍的替换标准,确定了视觉观察到的料槽中的激动互动总数与从电子饲喂事件数据中检测到的替换事件之间的斯皮尔曼等级相关性(rs)。在行动者和反应者事件数量以及竞争指数方面,观察值和电子值之间存在很强的相关性(rs ≥ 0.71; P < 0.05)。这些结果证明了使用 Vytelle SENSE 采食量测量系统电子采集的采食事件数据量化圈养肉牛破坏性饲料更换事件的潜力。
Development of an algorithm to detect feed bunk replacement events in growing cattle from feeding event data acquired by an electronic feed intake measurement system
Visual observations of competitive feeding behavior in cattle have been associated with animal productivity, health, and social hierarchy. However, human visual observations are time consuming, limiting the number of animals that can be evaluated. The objective of this study was to develop and assess an algorithm to detect disruptive feed bunk replacement events using feeding event data acquired from the Vytelle SENSE feed intake measurement system. Crossbred beef steers (N = 20) fed a grower diet were housed in one of two pens each equipped with three electronic feed bunks and a video recorder. A trained video observer recorded all feed bunk replacement events (when an actor animal displaced a reactor animal from the feed bunk and occupied the same feed bunk within a specified time interval, termed as the replacement criterion) and other agonistic activities at the feed bunk during a 4-d period. The Vytelle SENSE feed intake measurement system recorded the start and end timestamps of individual bunk visit (BV) events of animals. An algorithm was developed to determine replacement events based on the start and end times of consecutive BV events. Using video observation as the gold standard, the recall, precision, and F-score of the algorithm was calculated corresponding to time intervals from 1 to 60 s. The optimum replacement criterion was determined to be ≤ 18 s and ≤ 22 s for pens 1 and 2 respectively. The recall, precision, and F-score of the algorithm using these replacement criterions were high (> 0.75). A competition index was computed for each steer, calculated as the number of actor-initiated events divided by the number of actor and reactor events at the feed bunk. Spearman’s rank correlations (rs) between total visually observed agonistic interactions at the feed bunk and the replacement events detected from the electronic feeding event data using the algorithm and replacement criterion of the respective pen was determined. There were strong correlations (rs ≥ 0.71; P < 0.05) between the observed and electronic values for the number of actor and reactor events, and the competition index. These results demonstrate the potential to quantify disruptive feed bunk replacement events in confined beef cattle using electronically collected feeding event data from the Vytelle SENSE feed intake measurement system.
期刊介绍:
This journal publishes relevant information on the behaviour of domesticated and utilized animals.
Topics covered include:
-Behaviour of farm, zoo and laboratory animals in relation to animal management and welfare
-Behaviour of companion animals in relation to behavioural problems, for example, in relation to the training of dogs for different purposes, in relation to behavioural problems
-Studies of the behaviour of wild animals when these studies are relevant from an applied perspective, for example in relation to wildlife management, pest management or nature conservation
-Methodological studies within relevant fields
The principal subjects are farm, companion and laboratory animals, including, of course, poultry. The journal also deals with the following animal subjects:
-Those involved in any farming system, e.g. deer, rabbits and fur-bearing animals
-Those in ANY form of confinement, e.g. zoos, safari parks and other forms of display
-Feral animals, and any animal species which impinge on farming operations, e.g. as causes of loss or damage
-Species used for hunting, recreation etc. may also be considered as acceptable subjects in some instances
-Laboratory animals, if the material relates to their behavioural requirements
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