Title :
The farthest point strategy for progressive image sampling
Author :
Eldar, Yuval ; Lindenbaum, Michael ; Porat, Moshe ; Zeevi, Yehoshua Y.
Author_Institution :
IBM Israel Sci. & Technol. Center, Haifa, Israel
fDate :
9/1/1997 12:00:00 AM
Abstract :
A new method of farthest point strategy (FPS) for progressive image acquisition-an acquisition process that enables an approximation of the whole image at each sampling stage-is presented. Its main advantage is in retaining its uniformity with the increased density, providing efficient means for sparse image sampling and display. In contrast to previously presented stochastic approaches, the FPS guarantees the uniformity in a deterministic min-max sense. Within this uniformity criterion, the sampling points are irregularly spaced, exhibiting anti-aliasing properties comparable to those characteristic of the best available method (Poisson disk). A straightforward modification of the FPS yields an image-dependent adaptive sampling scheme. An efficient O(N log N) algorithm for both versions is introduced, and several applications of the FPS are discussed
Keywords :
adaptive signal processing; image sampling; minimax techniques; Poisson disk; algorithm; antialiasing properties; deterministic min-max uniformity; farthest point strategy; image approximation; image dependent adaptive sampling; progressive image acquisition; progressive image sampling; sampling points; sparse image display; sparse image sampling; stochastic approaches; uniformity criterion; Bandwidth; Computer science; Data acquisition; Displays; Helium; Image resolution; Image sampling; Image sensors; Sampling methods; Stochastic processes;
Journal_Title :
Image Processing, IEEE Transactions on
