The wearable training apparatus includes: a vision-control assembly configured for engaging a user’s encounter regarding the consumer ‘s eyes, stated vision-control assembly containing a lens frame having a translucent region about the user’s eyes and an opaque area surrounding the see-through area at least to a temporal facet, a sinus side, and a poor side thereof. In certain embodiments, the vision-control assembly includes a lens frame and also one or two lens elements secured in the lens framework. The system includes a wearable coaching device disclosed herein for being worn by the consumer; one or more imaging apparatus configured for shooting images of the user wearing the wearable coaching devices; and at least one computing device in communication with one or more imaging apparatus for tracking the consumer ‘s movement utilizing the one or more imaging device. By using the herein-disclosed devices, methods and systems, patients can learn to correctly align their bodies at a secure position when given movement tasks during rehabilitation.
Each of the two or one lens components includes a transparent or see-through region, and the union of the two or one see-through regions form a translucent region configured for limiting a user’s FOV to a reduced FOV which corresponds to a fundamental portion of the individual FOV, and an opaque area for obstructing a peripheral section of the user’s FOV. In certain embodiments, the translucent material contains one or more lens. In some embodiments, a training system might include a more wearable coaching apparatuses as described previously, and a couple of imaging devices functionally coupled to one or more computing devices via one or more appropriate wired or wireless links. Alternately, the opaque region 134 may be rendered clear by gluing, staining, painting, or otherwise coupling thereto a layer of opaque material. Unlike the lens components of traditional glasses which are ordinarily fully transparent or “translucent ” for minimizing the congestion of consumer ‘s eyesight, every lens element 104 inside this embodiment includes a central aperture or transparent region 132 for “see-through”, along with a neighboring, substantive opaque area 134 for blocking an individual ‘s peripheral vision. In certain embodiments, the headgear comprises a helmet frame with a front opening about the user’s eyes and a protective weapon covering front gap; and whereas the vision-control meeting is attached between the helmet and the fence.
Accordingly, in a variety of embodiments, the wearable coaching device 100 may comprise a see-through area (like the transparent regions 132) along with a vision-blocking area (like the opaque area 134 and the sidewall 120). The see-through region is sized and placed to permit a user to see through the wearable training device 100 within a reduced FOV area in regards to the gaze direction 206, and the vision-blocking region blocks the user’s unwanted FOV areas peripheral to the low FOV area. In this embodiment, the sidewall 120 has a suitable rearward-extension depth and also the temple bits 110 have an appropriate configuration such that a user can utilize the wearable training apparatus 100 in a manner very similar to wearing a pair of regular eyeglasses and the end 124 of the sidewall 120 easily connected with the consumer ‘s head blocking the consumer ‘s side vision.
FIG. 11C is a schematic plan view showing a user wearing the wearable training devices 100 and the horizontal span of this FOV in yet a few other embodiments. The fundamental translucent region 132 of each lens element 104 is located in front of a fundamental vision-area of the eye of the user, and 메이저사이트 (mouse click the up coming post) may not necessarily be located at the geometrical center of the lens element 104. As exhibited in FIG. 3B, in this embodiment, each central transparent region 132 includes a rectangular shape with a measurement of about 12 millimeters (mm) and also a lateral direction with approximately 25 mm along a longitudinal direction. In certain embodiments, the horizontal length 232 of this reduced FOV may be about 100 to roughly 140 (i.e., roughly 50 to about 70 on each side). In certain embodiments, the horizontal length of this reduced FOV is approximately 100 to about 140 with about 50 to about 70 on each side.