- Keyhole problem
The keyhole problem in the context of
astronomy refers to the difficulty that azimuth-elevation type telescopes or antennagimbal systems encounter in crossing thezenith .Area of Visible Sky
To track celestial objects as they move across the sky, these systems usually rotate on two axes. Often a tilting mechanism (elevation) is mounted upon a panning base (azimuth). In order to cover the complete hemisphere of visible sky, a telescope gimbal could have a 360 degree azimuth range and 0 to 90 degree elevation range. In order to visualize this shape, imagine drawing a quarter circle spanning from the horizon to directly above you and revolving it around the vertical axis.
If, on the other hand, the gimbal has a range from 0 to slightly less than 90 degrees azimuth, there will be a region of sky that is not viewable by the telescope (see figure).
Gimbal Behavior
A variation on the keyhole problem involves defining behavior for gimbals with full-circle horizontal range, and at least 90 degree but less than 180 degree azimuth range. Imagine a satellite on an orbital path that crosses directly overhead. If the gimbal tilts to track the object from the horizon but must stop at 90 degrees, the entire telescope must pan 180 degrees in order to follow the object from zenith back down to the opposite horizon. This is an often-encountered difficulty in creating smooth automated tracking algorithms.
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