Automatic recognition of jaw movements in free-ranging cattle, goats and sheep, using acoustic monitoring

Sensor technologies to quantify the feeding behaviour of free-grazing domesticated herbivores are required. Acoustic monitoring is a promising method, but signal processing algorithms to automatically identify and classify sound-producing jaw movements are not well developed. We present an algorithm...

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Published inBiosystems engineering Vol. 114; no. 4; pp. 474 - 483
Main Authors Navon, Shilo, Mizrach, Amos, Hetzroni, Amots, Ungar, Eugene David
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier Ltd 01.04.2013
Elsevier
Subjects
acoustics
Agricultural machinery and engineering
Agronomy. Soil science and plant productions
algorithms
Animal productions
Biological and medical sciences
cattle
computer software
engineering
feeding behavior
forage
Fundamental and applied biological sciences. Psychology
Generalities. Biometrics, experimentation. Remote sensing
goats
grazing
herbivores
monitoring
pastures
sheep
Terrestrial animal productions
Vertebrates
Bioengineering
Farming animal
Herbivorous
Bovine
Ruminant animal
Acoustics
Engineering
Vertebrata
Mammalia
Surveillance
Motion study
Sheep
Agriculture
Goat
Artiodactyla
Ungulata
Recognition
Automatic
Online AccessGet full text
ISSN1537-5110
1537-5129
DOI10.1016/j.biosystemseng.2012.08.005

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Abstract Sensor technologies to quantify the feeding behaviour of free-grazing domesticated herbivores are required. Acoustic monitoring is a promising method, but signal processing algorithms to automatically identify and classify sound-producing jaw movements are not well developed. We present an algorithm for jaw movement identification that is designed to be as general as possible; it requires no calibration and identifies jaw movements according to key features in the time domain that are defined in relative terms. A machine-learning approach is used to separate true jaw-movement sounds from background noise and intense spurious noises. The algorithm software performance was tested in three field studies by comparing its output with that generated by aural sequencing. For cattle grazing green pasture in a low-noise environment with a Lavalier microphone positioned on the forehead, the system achieved 94% correct identification (i.e., aural events matched by software events within a tolerance of 0.2 s) and a false positive rate (i.e., software events not similarly matched by aural events) of 7%. For goats grazing green herbage in an extremely noisy environment, and with a piezoelectric microphone positioned on the horn, the system achieved 96% correct identification and 4% false positives. For sheep grazing dry pasture in an environment characterised by frequent intense noises, and with a piezoelectric microphone positioned on the horn, the system achieved 84% correct identification and 24% false positives. Very low error rates can be obtained from the software if intense extraneous noises can be avoided. ► Acoustic monitoring can be used to study the feeding behaviour of grazing ruminants. ► We present software for automatic identification of sound-producing jaw movements. ► The software was designed to be as general as possible and require no calibration. ► The software was tested in studies with cattle, goats and sheep. ► Correct identification rates were 94% (cattle), 96% (goats) and 84% (sheep).
AbstractList Sensor technologies to quantify the feeding behaviour of free-grazing domesticated herbivores are required. Acoustic monitoring is a promising method, but signal processing algorithms to automatically identify and classify sound-producing jaw movements are not well developed. We present an algorithm for jaw movement identification that is designed to be as general as possible; it requires no calibration and identifies jaw movements according to key features in the time domain that are defined in relative terms. A machine-learning approach is used to separate true jaw-movement sounds from background noise and intense spurious noises. The algorithm software performance was tested in three field studies by comparing its output with that generated by aural sequencing. For cattle grazing green pasture in a low-noise environment with a Lavalier microphone positioned on the forehead, the system achieved 94% correct identification (i.e., aural events matched by software events within a tolerance of 0.2 s) and a false positive rate (i.e., software events not similarly matched by aural events) of 7%. For goats grazing green herbage in an extremely noisy environment, and with a piezoelectric microphone positioned on the horn, the system achieved 96% correct identification and 4% false positives. For sheep grazing dry pasture in an environment characterised by frequent intense noises, and with a piezoelectric microphone positioned on the horn, the system achieved 84% correct identification and 24% false positives. Very low error rates can be obtained from the software if intense extraneous noises can be avoided.
Sensor technologies to quantify the feeding behaviour of free-grazing domesticated herbivores are required. Acoustic monitoring is a promising method, but signal processing algorithms to automatically identify and classify sound-producing jaw movements are not well developed. We present an algorithm for jaw movement identification that is designed to be as general as possible; it requires no calibration and identifies jaw movements according to key features in the time domain that are defined in relative terms. A machine-learning approach is used to separate true jaw-movement sounds from background noise and intense spurious noises. The algorithm software performance was tested in three field studies by comparing its output with that generated by aural sequencing. For cattle grazing green pasture in a low-noise environment with a Lavalier microphone positioned on the forehead, the system achieved 94% correct identification (i.e., aural events matched by software events within a tolerance of 0.2 s) and a false positive rate (i.e., software events not similarly matched by aural events) of 7%. For goats grazing green herbage in an extremely noisy environment, and with a piezoelectric microphone positioned on the horn, the system achieved 96% correct identification and 4% false positives. For sheep grazing dry pasture in an environment characterised by frequent intense noises, and with a piezoelectric microphone positioned on the horn, the system achieved 84% correct identification and 24% false positives. Very low error rates can be obtained from the software if intense extraneous noises can be avoided.
Sensor technologies to quantify the feeding behaviour of free-grazing domesticated herbivores are required. Acoustic monitoring is a promising method, but signal processing algorithms to automatically identify and classify sound-producing jaw movements are not well developed. We present an algorithm for jaw movement identification that is designed to be as general as possible; it requires no calibration and identifies jaw movements according to key features in the time domain that are defined in relative terms. A machine-learning approach is used to separate true jaw-movement sounds from background noise and intense spurious noises. The algorithm software performance was tested in three field studies by comparing its output with that generated by aural sequencing. For cattle grazing green pasture in a low-noise environment with a Lavalier microphone positioned on the forehead, the system achieved 94% correct identification (i.e., aural events matched by software events within a tolerance of 0.2 s) and a false positive rate (i.e., software events not similarly matched by aural events) of 7%. For goats grazing green herbage in an extremely noisy environment, and with a piezoelectric microphone positioned on the horn, the system achieved 96% correct identification and 4% false positives. For sheep grazing dry pasture in an environment characterised by frequent intense noises, and with a piezoelectric microphone positioned on the horn, the system achieved 84% correct identification and 24% false positives. Very low error rates can be obtained from the software if intense extraneous noises can be avoided. ► Acoustic monitoring can be used to study the feeding behaviour of grazing ruminants. ► We present software for automatic identification of sound-producing jaw movements. ► The software was designed to be as general as possible and require no calibration. ► The software was tested in studies with cattle, goats and sheep. ► Correct identification rates were 94% (cattle), 96% (goats) and 84% (sheep).
Author Ungar, Eugene David
Hetzroni, Amots
Navon, Shilo
Mizrach, Amos
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Issue 4
Keywords Bioengineering
Farming animal
Herbivorous
Bovine
Ruminant animal
Acoustics
Engineering
Vertebrata
Mammalia
Surveillance
Motion study
Sheep
Agriculture
Goat
Artiodactyla
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Recognition
Automatic
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Snippet Sensor technologies to quantify the feeding behaviour of free-grazing domesticated herbivores are required. Acoustic monitoring is a promising method, but...
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SubjectTerms acoustics
Agricultural machinery and engineering
Agronomy. Soil science and plant productions
algorithms
Animal productions
Biological and medical sciences
cattle
computer software
engineering
feeding behavior
forage
Fundamental and applied biological sciences. Psychology
Generalities. Biometrics, experimentation. Remote sensing
goats
grazing
herbivores
monitoring
pastures
sheep
Terrestrial animal productions
Vertebrates
Title Automatic recognition of jaw movements in free-ranging cattle, goats and sheep, using acoustic monitoring
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