Acceleration sensors allow a reduction of time-consuming visual observation. The drinking behavior of bucketfed calves has not been monitored automatically yet, although sufficient milk intake is essential for calves’ health
and growth. The objectives of this pilot study were (1) to evaluate the technical and mathematical feasibility of
using an acceleration sensor to detect drinking events in bucket-fed dairy calves, (2) to develop an algorithm for
an acceleration sensor (SMARTBOW ear tag, Smartbow GmbH, Weibern, Austria) for monitoring drinking behavior in bucket-fed dairy calves, and (3) to validate the SMARTBOW sensor for monitoring drinking events in
bucket-fed dairy calves to observations from video recordings. Three preweaned dairy calves were equipped
with ear-tag accelerometers. Calves were housed in individual pens and fed milk from a teat-bucket twice a day.
Acceleration data were collected and calf behavior was video-recorded for 5 d for 24 h d−1
. Based on a training
data set, an algorithm was developed to predict drinking events. Further 15 d of data were generated by simulation. Video recordings were used to analyze whether drinking events (n = 174) were predicted correctly for
the complete data set. Sensitivity (82.9%), specificity (96.9%), and accuracy (96.2%) were good, but precision
(60.4%) was not yet optimal. Cohen’s Kappa (0.68) indicated substantial agreement between sensor and video
analysis. More research based on a larger number of animals with the aim to optimize the underlying algorithm
and to further increase sensitivity and precision is planned.