1. Correction: Automatic detection of break-over phase onset in horses using hoof-mounted inertial measurement unit sensors
- Author
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Tijssen, M., Hernlund, E., Rhodin, M., Bosch, S., Voskamp, J. P., Nielen, M., Serra Braganςa, F. M., FAH Evidence based Veterinary Medicine, dFAH AVR, Afd Algemeen Paard, Hafd Onderwijsadvies en training, and Pervasive Systems
- Subjects
Hoof and Claw ,Inertia ,Physiology ,Velocity ,Biosensing Techniques ,Walking ,0403 veterinary science ,Gait (human) ,Medical Bioscience ,Medicine and Health Sciences ,Musculoskeletal Diseases ,Musculoskeletal System ,Mammals ,Multidisciplinary ,Feet ,Physics ,Applied Mathematics ,Simulation and Modeling ,Classical Mechanics ,Eukaryota ,04 agricultural and veterinary sciences ,Biomechanical Phenomena ,Signal Filtering ,Warmblood ,Physical Sciences ,Vertebrates ,Medicine ,Legs ,Engineering and Technology ,Anatomy ,Wireless Technology ,Algorithms ,Research Article ,Materials science ,040301 veterinary sciences ,Hoof ,Science ,Acoustics ,Musculoskeletal Physiological Phenomena ,Acceleration ,Equines ,Phase (waves) ,Angular velocity ,Research and Analysis Methods ,Motion ,Inertial measurement unit ,Animals ,Force platform ,Horses ,Biological Locomotion ,0402 animal and dairy science ,Organisms ,Correction ,Biology and Life Sciences ,Toes ,040201 dairy & animal science ,Body Limbs ,Amniotes ,Signal Processing ,Horse Diseases ,Mathematics - Abstract
A prolonged break-over phase might be an indication of a variety of musculoskeletal disorders and can be measured with optical motion capture (OMC) systems, inertial measurement units (IMUs) and force plates. The aim of this study was to present two algorithms for automatic detection of the break-over phase onset from the acceleration and angular velocity signals measured by hoof-mounted IMUs in walk and trot on a hard surface. The performance of these algorithms was evaluated by internal validation with an OMC system and a force plate separately. Seven Warmblood horses were equipped with two wireless IMUs which were attached to the lateral wall of the right front (RF) and hind (RH) hooves. Horses were walked and trotted over a force plate for internal validation while simultaneously the 3D position of three reflective markers, attached to lateral heel, lateral toe and lateral coronet of each hoof, were measured by six infrared cameras of an OMC system. The performance of the algorithms was evaluated by linear mixed model analysis. The acceleration algorithm was the most accurate with an accuracy between -9 and 23 ms and a precision around 24 ms (against OMC system), and an accuracy between -37 and 20 ms and a precision around 29 ms (against force plate), depending on gait and hoof. This algorithm seems promising for quantification of the break-over phase onset although the applicability for clinical purposes, such as lameness detection and evaluation of trimming and shoeing techniques, should be investigated more in-depth.
- Published
- 2020