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| title | chunk | source | category | tags | date_saved | instance |
|---|---|---|---|---|---|---|
| Motion analysis | 2/2 | https://en.wikipedia.org/wiki/Motion_analysis | reference | science, encyclopedia | 2026-05-05T10:02:38.023893+00:00 | kb-cron |
=== Human motion analysis === In the areas of medicine, sports, video surveillance, physical therapy, and kinesiology, human motion analysis has become an investigative and diagnostic tool. See the section on motion capture for more detail on the technologies. Human motion analysis can be divided into three categories: human activity recognition, human motion tracking, and analysis of body and body part movement. Human activity recognition is most commonly used for video surveillance, specifically automatic motion monitoring for security purposes. Most efforts in this area rely on state-space approaches, in which sequences of static postures are statistically analyzed and compared to modeled movements. Template-matching is an alternative method whereby static shape patterns are compared to pre-existing prototypes. Human motion tracking can be performed in two or three dimensions. Depending on the complexity of analysis, representations of the human body range from basic stick figures to volumetric models. Tracking relies on the correspondence of image features between consecutive frames of video, taking into consideration information such as position, color, shape, and texture. Edge detection can be performed by comparing the color and/or contrast of adjacent pixels, looking specifically for discontinuities or rapid changes. Three-dimensional tracking is fundamentally identical to two-dimensional tracking, with the added factor of spatial calibration. Motion analysis of body parts is critical in the medical field. In postural and gait analysis, joint angles are used to track the location and orientation of body parts. Gait analysis is also used in sports to optimize athletic performance or to identify motions that may cause injury or strain. Tracking software that does not require the use of optical markers is especially important in these fields, where the use of markers may impede natural movement.
=== Motion analysis in manufacturing === Motion analysis is also applicable in the manufacturing process. Using high speed video cameras and motion analysis software, one can monitor and analyze assembly lines and production machines to detect inefficiencies or malfunctions. Manufacturers of sports equipment, such as baseball bats and hockey sticks, also use high speed video analysis to study the impact of projectiles. An experimental setup for this type of study typically uses a triggering device, external sensors (e.g., accelerometers, strain gauges), data acquisition modules, a high-speed camera, and a computer for storing the synchronized video and data. Motion analysis software calculates parameters such as distance, velocity, acceleration, and deformation angles as functions of time. This data is then used to design equipment for optimal performance.
=== Additional applications for motion analysis === The object and feature detecting capabilities of motion analysis software can be applied to count and track particles, such as bacteria, viruses, "ionic polymer-metal composites", micron-sized polystyrene beads, aphids, and projectiles.
== See also == Mechanography Structure from motion Video motion analysis X-ray motion analysis
== References ==