Title :
Spatiotemporal approach for time-varying global image motion estimation
Author :
Chen, Wei-ge ; Giannakis, G.B. ; Nandhakumar, N.
Author_Institution :
Microsoft Corp., Redmond, WA, USA
fDate :
10/1/1996 12:00:00 AM
Abstract :
Image motion estimation using the spatiotemporal approach has largely relied on the constant velocity assumption, and thus becomes inappropriate when the velocity of the imaged scene or the camera changes during the data acquisition time. Using a polynomial or a trigonometric polynomial model for the time variation of the image motion, spatiotemporal algorithms are developed in this paper to handle time-varying (but space-invariant) motion. Under these models, it is shown that time-varying image motion estimation is equivalent to parameter estimation of one-dimensional (1-D) polynomial phase or phase-modulated signals, which allows one to exploit well-established results in radar signal processing. When compared with alternative approaches, the resulting motion estimation algorithms produce more accurate estimates. Simulation results are provided to demonstrate the proposed schemes
Keywords :
motion estimation; parameter estimation; phase modulation; polynomials; time-varying systems; 1D polynomial phase signals; data acquisition; motion estimation algorithms; parameter estimation; phase modulated signals; polynomial model; radar signal processing; simulation results; space-invariant motion; spatiotemporal algorithms; spatiotemporal approach; time variation; time-varying global image motion estimation; trigonometric polynomial model; Cameras; Data acquisition; Layout; Motion estimation; Parameter estimation; Polynomials; Radar signal processing; Signal processing; Signal processing algorithms; Spatiotemporal phenomena;
Journal_Title :
Image Processing, IEEE Transactions on
