Resolution limitations of a finite aperture
- 1 May 1967
- journal article
- Published by Institute of Electrical and Electronics Engineers (IEEE) in IEEE Transactions on Antennas and Propagation
- Vol. 15 (3), 376-381
- https://doi.org/10.1109/tap.1967.1138925
Abstract
Methods of increasing antenna resolution by data processing are of interest in radio astronomy and radiometric mapping applications. This paper deals with the fundamental limitations of such operations. Communication theory techniques using prolate spheroidal wave functions have already been applied to antenna pattern synthesis. These techniques are applied to the problem of reconstituting an observed temperature distribution. The manner in which noise limits this reconstitution process is clearly shown. A least expected mean square error reconstitution process is also detailed. An interesting analogy between data processing and supergaining is noted. Finally, the limitation set by noise on the resolution of a data processed finite aperture is concluded.Keywords
This publication has 7 references indexed in Scilit:
- Eigenvalues Associated with Prolate Spheroidal Wave Functions of Zero OrderBell System Technical Journal, 1965
- The optimum line source for the best mean-square approximation to a given radiation patternIEEE Transactions on Antennas and Propagation, 1963
- Prolate Spheroidal Wave Functions, Fourier Analysis and Uncertainty-III: The Dimension of the Space of Essentially Time- and Band-Limited SignalsBell System Technical Journal, 1962
- On the Theoretical Limitation of a Radio Telescope in Determining the Sky Temperature DistributionJournal of Applied Physics, 1961
- Prolate Spheroidal Wave Functions, Fourier Analysis and Uncertainty - IIBell System Technical Journal, 1961
- Prolate Spheroidal Wave Functions, Fourier Analysis and Uncertainty - IBell System Technical Journal, 1961
- Aerial Smoothing in Radio AstronomyAustralian Journal of Physics, 1954