Rotation of a two-dimensional sampling set using one-dimensional resampling

Rotation of a two-dimensional sampling set using one-dimensional resampling

Generating intermediate sample points from a two-dimensional sample set generally requires two-dimensional filtering. Because true two-dimensional filtering requires a large number of computations, alternative filtering methods may be attractive. One alternative is to perform a series of one-dimensi...

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Bibliographic Details
Published in:IEEE transactions on acoustics, speech, and signal processing Vol. 29; no. 6; pp. 1218 - 1222
Main Authors: Maisel, J., Morden, R.
Format: Journal Article
Language:English
Published: IEEE 01-12-1981
Subjects:
Bandwidth
Filtering
Fourier transforms
Frequency domain analysis
Interpolation
Low pass filters
Mathematical analysis
Radar imaging
Radar theory
Sampling methods
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Description
Summary:Generating intermediate sample points from a two-dimensional sample set generally requires two-dimensional filtering. Because true two-dimensional filtering requires a large number of computations, alternative filtering methods may be attractive. One alternative is to perform a series of one-dimensional filtering operations on individual lines of samples within the two-dimensional set. As long as the Nyquist sampling rate in both dimensions is satisfied at each intermediate step, valid sample values result. This paper analyzes a one-dimensional interpolation procedure for resampling a two-dimensional set of samples taken on an orthogonal grid into a second set of samples on an orthogonal grid which is rotated with respect to the first. The mathematical analysis quantifies the minimum sampling rate requirements, for a function with a rectangular band limit, as a function of the two-dimensional bandwidths and the angle of rotation between the two sampling grids.
ISSN:0096-3518
DOI:10.1109/TASSP.1981.1163703