Title :
Atmospheric Tomography with a Rotating Mirror Sensor
Author :
Moon, Todd K. ; Swenson, Charles M.
Author_Institution :
Utah State Univ., Logan, UT
Abstract :
Ionospheric phenomena have an impact on terrestrial technology, affecting navigation, communication, and radio astronomy, in order to closely study these phenomena, we are developing an ionospheric sounder featuring a rotating lens system. This rotating lens provides multiple views of the same volume of space, which can be used to provide tomographic images of the ionosphere. Tomography is expressed here using the natural pixel representation. Key to this representation is the computation of the elements of the Gram matrix, which is complicated by the ongoing orbital motion and rotation of the sensor. A discussion of the point spread function is presented, followed by some tomographic reconstructions from simulated data
Keywords :
atmospheric optics; geophysical signal processing; image reconstruction; image representation; ionospheric techniques; lenses; matrix algebra; mirrors; optical sensors; optical tomography; optical transfer function; Gram matrix; atmospheric tomographic images; ionospheric phenomena; navigation; pixel representation; point spread function; radio astronomy; rotating mirror sensor; terrestrial technology; tomographic reconstructions; Acoustic sensors; Communications technology; Ionosphere; Lenses; Mirrors; Radio astronomy; Radio navigation; Sensor phenomena and characterization; Space technology; Tomography;
Conference_Titel :
Digital Signal Processing Workshop, 12th - Signal Processing Education Workshop, 4th
Conference_Location :
Teton National Park, WY
Print_ISBN :
1-4244-3534-3
Electronic_ISBN :
1-4244-0535-1
DOI :
10.1109/DSPWS.2006.265482
