Title :
Parametric cubic convolution scaler for enlargement and reduction of image
Author :
Han, Jong-Ki ; Baek, Seung-Ung
Author_Institution :
Inf. & Media Lab., Samsung Electron., Suwon, South Korea
fDate :
5/1/2000 12:00:00 AM
Abstract :
An adaptive version of cubic convolution interpolation is derived for the enlargement or reduction of digital images by arbitrary scaling factors. In this paper, the problem of image interpolation is dealt with space-variant ones by introducing the adaptation of the interpolation kernel. The adaptation is performed in each subpixel which is predicted from the neighbor pixels. The interpolation kernel is modified to adapt local properties of the original data. During the adaptation phase, we modify the parameter value on which the interpolation is based to account for the concavity and continuity of data. Simulation results show that the proposed algorithm enable a reliable scaling technique with arbitrary scale factor. The algorithm exhibits significant improvement in the minimization of information loss when compared with the conventional interpolation algorithms
Keywords :
adaptive signal processing; convolution; image processing; interpolation; parameter estimation; adaptive cubic convolution interpolation; data concavity; data continuity; digital images; image enlargement; image interpolation; image reduction; information loss minimization; interpolation algorithm; interpolation kernel adaptation; local properties; parametric cubic convolution scaler; reliable scaling technique; scaling factors; simulation results; subpixel; Convolution; Degradation; Digital images; Displays; Frequency; Interpolation; Kernel; Research and development; Signal processing algorithms; Spline;
Journal_Title :
Consumer Electronics, IEEE Transactions on
