Validation of a tail-mounted triaxial accelerometer for measuring foals' lying and motor behavior

[1]  K. Houpt,et al.  Play development in Welsh pony (Equus caballus) foals , 1987 .

[2]  S. M. Rutter,et al.  An automatic system to monitor lying, standing and walking behaviour of grazing animals , 1997 .

[3]  P. R. van Weeren,et al.  Conclusions regarding the influence of exercise on the development of the equine musculoskeletal system with special reference to osteochondrosis. , 2010, Equine veterinary journal. Supplement.

[4]  H. Schamhardt,et al.  The influence of different exercise regimens on the development of locomotion in the foal. , 2010, Equine veterinary journal. Supplement.

[5]  P. R. van Weeren,et al.  Quantification of spontaneous locomotion activity in foals kept in pastures under various management conditions. , 2006, American journal of veterinary research.

[6]  J. Rushen,et al.  Behavior of dairy calves after a low dose of bacterial endotoxin. , 2008, Journal of animal science.

[7]  F. Skjøth,et al.  Technical note: Quantifying and characterizing behavior in dairy calves using the IceTag automatic recording device. , 2009, Journal of dairy science.

[8]  M. Kolehmainen,et al.  Cow behaviour pattern recognition using a three-dimensional accelerometer and support vector machines , 2009 .

[9]  M. Pastell,et al.  Predicting Sleep and Lying Time of Calves with a Support Vector Machine Classifier Using Accelerometer Data , 2011 .

[10]  C. Winckler,et al.  Evaluation of data loggers, sampling intervals, and editing techniques for measuring the lying behavior of dairy cattle. , 2010, Journal of Dairy Science.

[11]  J Rushen,et al.  Technical note: use of accelerometers to describe gait patterns in dairy calves. , 2010, Journal of dairy science.

[12]  David Barber,et al.  Bayesian reasoning and machine learning , 2012 .

[13]  L. Lawrence,et al.  Foal behavior during the early neonatal period , 2013 .

[14]  Max Kuhn,et al.  Applied Predictive Modeling , 2013 .

[15]  W Heuwieser,et al.  Technical note: evaluation of data loggers for measuring lying behavior in dairy calves. , 2013, Journal of dairy science.

[16]  Edward A. Codling,et al.  Classification of behaviour in housed dairy cows using an accelerometer-based activity monitoring system , 2015, Animal Biotelemetry.

[17]  D. Haley,et al.  Validation of triaxial accelerometers to measure the lying behaviour of adult domestic horses. , 2015, Animal : an international journal of animal bioscience.

[18]  Patrick Olivier,et al.  Dancing with horses: automated quality feedback for dressage riders , 2015, UbiComp.

[19]  M Alsaaod,et al.  Development and validation of a novel pedometer algorithm to quantify extended characteristics of the locomotor behavior of dairy cows. , 2015, Journal of dairy science.

[20]  Ilias Kyriazakis,et al.  Porcine lie detectors: Automatic quantification of posture state and transitions in sows using inertial sensors , 2016, Comput. Electron. Agric..

[21]  Alan Edelman,et al.  Julia: A Fresh Approach to Numerical Computing , 2014, SIAM Rev..

[22]  Jennifer M. Chen,et al.  Muddy conditions reduce hygiene and lying time in dairy cattle and increase time spent on concrete. , 2017, Journal of dairy science.

[23]  Aaron Ingham,et al.  Cattle behaviour classification from collar, halter, and ear tag sensors , 2017 .

[24]  H. Murase,et al.  Changes of lying behavior in Thoroughbred foals influenced by age, pasturing time, and weather conditions , 2018, Journal of equine science.

[25]  B. Sonck,et al.  Classification of ingestive-related cow behaviours using RumiWatch halter and neck-mounted accelerometers , 2019, Applied Animal Behaviour Science.