A Novel, Automated, and Real-Time Method for the Analysis of Non-Human Primate Behavioral Patterns Using a Depth Image Sensor

By virtue of their upright locomotion, similar to that of humans, motion analysis of non-human primates has been widely used in order to better understand musculoskeletal biomechanics and neuroscience problems. Given the difficulty of conducting a marker-based infrared optical tracking system for th...

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Bibliographic Details
Published in:Applied sciences 2022-01, Vol.12 (1), p.471
Main Authors: Han, Sang Kuy, Kim, Keonwoo, Rim, Yejoon, Han, Manhyung, Lee, Youngjeon, Park, Sung-Hyun, Choi, Won Seok, Chun, Keyoung Jin, Lee, Dong-Seok
Format: Article
Language:English
Subjects:
Algorithms
Alzheimer's disease
Automation
Behavior
behavioral pattern analysis
Biomechanics
Cages
Cameras
Classification
computer-based analysis
depth image sensor
Human error
Human motion
Image analysis
Image processing
Infrared analysis
Locomotion
Markers
Motion capture
Nervous system
Noise
non-human primate study
Observers
Primates
Real time
Research methodology
Sensors
Software
Three dimensional motion
Two dimensional analysis
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Summary:By virtue of their upright locomotion, similar to that of humans, motion analysis of non-human primates has been widely used in order to better understand musculoskeletal biomechanics and neuroscience problems. Given the difficulty of conducting a marker-based infrared optical tracking system for the behavior analysis of primates, a 2-dimensional (D) video analysis has been applied. Distinct from a conventional marker-based optical tracking system, a depth image sensor system provides 3-D information on movement without any skin markers. The specific aim of this study was to develop a novel algorithm to analyze the behavioral patterns of non-human primates in a home cage using a depth image sensor. The behavioral patterns of nine monkeys in their home cage, including sitting, standing, and pacing, were captured using a depth image sensor. Thereafter, these were analyzed by observers’ manual assessment and the newly written automated program. We confirmed that the measurement results from the observers’ manual assessments and the automated program with depth image analysis were statistically identical.
ISSN:2076-3417
2076-3417
DOI:10.3390/app12010471