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Kwon3DXP provides competitive power as a research project based integration software for needs of accurate analysis. Kwon3D XP preserves depth of analysis using direct interface method. As the single unit program that can be used as an enterprise solution, Kwon3D XP increased easy usability and has features like capturing multi videos, measuring ground reaction force data and analog signal, calibrating, analyzing, creating reports as well as auto-updating.
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- Optional pre interpolation of the image coordinates
- Synchronization of the cameras
- Computation of the raw positions of the primary points
- Computation of the raw positions of the secondary points
- Computation of the missing raw positions through the rigid body method
- Optional post interpolation of the raw position data
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- The ground reaction force data
- The center-of-pressure data
- The ground reaction torque data
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- Filtering of the positions,
and Derivation of the conditioned position data to obtain the velocities and accelerations of the points.
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- Computation of the positions of the center-of-masses (CM) of the rigid bodies and body groups included in the body model,
- Filtering of the position data,
- Computation of the body vectors, and
- Derivation of the position data to obtain the velocities and accelerations of the CM.
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- Computation of the unit vectors of the local reference frames,
- Computation of the orientation angles of the local frames, and
- Filtering of the orientation angles.
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- Computation of the angular velocities from the orientation angles or the segment vectors, and
- Derivation of the angular velocities to obtain the angular accelerations
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- Computation of the remote and local angular momenta of the rigid bodies and body groups included in the body model,
- Computation of the total angular momenta of the rigid bodies and body groups, and
- Derivation of the local angular momenta to obtain the local torques of the rigid bodies
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- Computation of the resultant joint forces of the joints defined in the body model,
- Computation of the resultant joint torques of the joints, and
- Computation of the joint powers and the muscle work rates.
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- Computation of the angular distances or relative angular positions defined in the body model, and
- Derivation of the angles to obtain the 1st and 2nd time-derivatives
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