Wiener-Based Image Registration for Moving Target Indication
Abstract
This paper describes two novel Wiener-based approaches for frame-to-frame image registration. The first approach, Local Wiener Registration, incorporates the cross-correlation between the two frames to determine the Wiener filter at each pixel location in order to predict the second frame from the first frame. The second approach, Block Wiener Registration, divides the image in nonoverlapping blocks and computer the Wiener filter for each block. The output of the Block Wiener Registration is the a weighted sum of the bank of Wiener filter outputs. By computing the Wiener filter for a few blocks in the imagery instead of at each pixel location, the Block Wiener Registration is significantly less computationally complex than the Local Wiener filter. Furthermore, both Wiener-based methods are able to compensate for localized motions of the background, e.g., parallax. Experimental results indicate that the Block Wiener Registration is nearly as effective as Local Wiener Registration and is orders of magnitude faster. Finally, both Wiener-based approaches outperform parametric registration approaches that account for the global changes from one frame to the next.
Document Details
- Document Type
- Technical Report
- Publication Date
- Nov 01, 2006
- Accession Number
- ADA481329
Entities
People
- Lance Kaplan
- Nasser M. Nasrabadi
Organizations
- United States Army Research Laboratory