System, method and apparatus for capturing and training a swing movement of a club
First Claim
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1. A measuring device to capture a swing movement of a club, comprising:
- a first three dimensional accelerometer to capture a first two-dimensional vector of acceleration within a first range of acceleration;
a second three dimensional accelerometer to capture a second two-dimensional vector of acceleration within a second range of acceleration different from the first range of acceleration;
a first angle sensor to capture a first rotation angle, a second rotation angle and a third rotation angle, the first rotation angle corresponding to the first two-dimensional vector of acceleration around a z-axis, where the z-axis is substantially normal to the two-dimensional vector of acceleration, the second angle of rotation corresponding to a one-dimensional acceleration vector to a y-axis, the y-axis is essentially perpendicular to the one-dimensional acceleration vector; and
a computation means including logic on a computer readable medium for converting a set of raw data captured from the first three dimensional accelerometer, the second three dimensional accelerometer and the first angle sensor into formatted data that includes an orientation, a maximum acceleration, a duration of individual phases of the swing movement, a force distribution and a plurality of accelerations during the corresponding plurality of individual phases of the swing movement and a swing path.
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Abstract
A system, method and apparatus for training a swing movement of a club includes storing a desired swing data in a measuring device, capturing a training swing data in the measuring device, comparing the training swing data to the desired swing data to determine a set of differential data, outputting a signal to a user corresponding to the set of differential data.
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Citations
17 Claims
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1. A measuring device to capture a swing movement of a club, comprising:
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a first three dimensional accelerometer to capture a first two-dimensional vector of acceleration within a first range of acceleration; a second three dimensional accelerometer to capture a second two-dimensional vector of acceleration within a second range of acceleration different from the first range of acceleration; a first angle sensor to capture a first rotation angle, a second rotation angle and a third rotation angle, the first rotation angle corresponding to the first two-dimensional vector of acceleration around a z-axis, where the z-axis is substantially normal to the two-dimensional vector of acceleration, the second angle of rotation corresponding to a one-dimensional acceleration vector to a y-axis, the y-axis is essentially perpendicular to the one-dimensional acceleration vector; and a computation means including logic on a computer readable medium for converting a set of raw data captured from the first three dimensional accelerometer, the second three dimensional accelerometer and the first angle sensor into formatted data that includes an orientation, a maximum acceleration, a duration of individual phases of the swing movement, a force distribution and a plurality of accelerations during the corresponding plurality of individual phases of the swing movement and a swing path. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 14, 15)
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13. The measuring device of 12, wherein the remote internet server is capable of providing additional processing of the captured data.
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16. A measuring device to capture a swing movement of a club, comprising:
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at least a two dimensional accelerometer to capture a two-dimensional vector of acceleration; at least a single-dimensional accelerometer to capture a one-dimensional acceleration vector, where at least a one-dimensional accelerometer is arranged to at least a two dimensional accelerometer, that the captured one-dimensional acceleration vector is essentially orthogonal to a two-dimensional acceleration vector captured by at least one two-dimensional acceleration sensor; a first angle of rotation sensor for the capture of the first rotation angle of the two-dimensional vector of acceleration around a z-axis, where the first angle of rotation sensor is arranged to at least one two-dimensional accelerometer, so that the z-axis is substantially normal to the two-dimensional vector of acceleration, marked by a second angle of rotation sensor to collect a second angle of rotation of the one-dimensional acceleration vector to a y-axis, where the second angle of rotation sensor is arranged to at least one one-dimensional accelerometer, so that the y-axis is essentially perpendicular to the one-dimensional acceleration vector. - View Dependent Claims (17)
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Specification