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Hopefully I will not confuse you with this question!
In the second backswing article, you write:
Now this is where I am confused. Based on your other articles in the series, I take backward lean to be lateral flexion of the spine:
However, it seems that spine extension is what you should be referring to:
It is this articulation of the body that will produce the angle necessary to drive the shoulder upwards (although I sense that once the spine is already in a position of lateral flexion, you need a more complex combination of spine articulations to bring the torso to face upwards more).
In the context of the quoted text above, I have a feeling you meant to say lateral lean, since in this article you reference a backward lean as seen from the back view; yet in the wind up article, you reference the backward lean as seen from the side view. Either that, or you have changed the meaning of "backward lean" depending on the context of the view.
May I humbly recommend avoiding this terminology? The words "backwards" and "sideways" are confusing for the following reasons:
There are three potential meanings of the word backward or sideways that the reader can conflate:
1) backwards relative to the "cardinal axes" of the body (backward lean to me conjures up an image of spine extension).
2) backwards relative to the net (also confusing since the orientation of the trunk relative to the net changes over the course of the serve)
3) backwards referencing the view from which the serve is observed; i.e. contrasted with side view or overhead view.
Much better to take some time to define the spine articulations in advance and then reference them when needed.
That said, I can understand the rationale behind definine angles relative to a particular view. For example, in your data module in the segment joint angles section, the lateral lean is defined from the backview, and this angle is more of an "emergent angle" based on all the individual articulation angles. Yet this emergent angle is of great diagnostic and computational importance when analyzing three dimensional data.
Perhaps my recommendation is not so sound afterall! (though I think I still caught an error where you should have used lateral lean rather than backward lean in that quoted text).
Really enjoying your series. They're keeping me up very very late...
In the second backswing article, you write:
The twisting rotation of the upper trunk is not, however, as simple as it appears. It's effectiveness in driving the motion of the hitting arm, especially late in the back swing, is related to the angle of the trunk at the end of the backswing.
As we have seen, the server's trunk inclines or leans backward (as seen in a back view) during the windup as a function of the knee bend.
This lean increases during the back swing, causing a shift in the angle of the torso. The increase in this angle that can be difficult to detect with the naked eye, or even with the use of video, but can be measured in 3D dimensional analysis.
Although it is subtle, this increased lean, or tilt, is critical in driving the motion of the shoulder. It is what allows the upper trunk twist to drive the shoulder forward and upward. Without the tilt there would be no upward motion, only the forward component. The upward component, however, is a critical part in creating racket head speed.
As we have seen, the server's trunk inclines or leans backward (as seen in a back view) during the windup as a function of the knee bend.
This lean increases during the back swing, causing a shift in the angle of the torso. The increase in this angle that can be difficult to detect with the naked eye, or even with the use of video, but can be measured in 3D dimensional analysis.
Although it is subtle, this increased lean, or tilt, is critical in driving the motion of the shoulder. It is what allows the upper trunk twist to drive the shoulder forward and upward. Without the tilt there would be no upward motion, only the forward component. The upward component, however, is a critical part in creating racket head speed.
However, it seems that spine extension is what you should be referring to:
It is this articulation of the body that will produce the angle necessary to drive the shoulder upwards (although I sense that once the spine is already in a position of lateral flexion, you need a more complex combination of spine articulations to bring the torso to face upwards more).
In the context of the quoted text above, I have a feeling you meant to say lateral lean, since in this article you reference a backward lean as seen from the back view; yet in the wind up article, you reference the backward lean as seen from the side view. Either that, or you have changed the meaning of "backward lean" depending on the context of the view.
May I humbly recommend avoiding this terminology? The words "backwards" and "sideways" are confusing for the following reasons:
There are three potential meanings of the word backward or sideways that the reader can conflate:
1) backwards relative to the "cardinal axes" of the body (backward lean to me conjures up an image of spine extension).
2) backwards relative to the net (also confusing since the orientation of the trunk relative to the net changes over the course of the serve)
3) backwards referencing the view from which the serve is observed; i.e. contrasted with side view or overhead view.
Much better to take some time to define the spine articulations in advance and then reference them when needed.
That said, I can understand the rationale behind definine angles relative to a particular view. For example, in your data module in the segment joint angles section, the lateral lean is defined from the backview, and this angle is more of an "emergent angle" based on all the individual articulation angles. Yet this emergent angle is of great diagnostic and computational importance when analyzing three dimensional data.
Perhaps my recommendation is not so sound afterall! (though I think I still caught an error where you should have used lateral lean rather than backward lean in that quoted text).
Really enjoying your series. They're keeping me up very very late...
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