OJAppS  Vol.3 No.1 B , March 2013
An Electronic Image Stabilization Algorithm Based on Efficient Block Matching on the Bitplane
Author(s) Luo Fang*, Qin Xiaozhen
ABSTRACT
This paper proposes an electronic image stabilization algorithm based on efficient block matching on the plane. This algorithm uses a hexagonal search algorithm, and uses the bit-planes to estimate and compensate for the translational motion between video sequences at the same time; As for the rotary motion vector generated in the video sequences, in order to highlight the intensity change of the image sequence, the algorithm firstly conducts Laplace transform for the reference frame, then select a number of characteristics at the image edge to make block matching with the current frame, calculate and compensate for the rotational movement that may exist finally. Through theoretical analysis and simula-tion, we prove that, as for a mixed translational and rotational motion video sequences, the proposed algorithm can reduce required time for block matching computation ,while improving the accuracy of the electronic image stabilization.

Cite this paper
L. Fang and Q. Xiaozhen, "An Electronic Image Stabilization Algorithm Based on Efficient Block Matching on the Bitplane," Open Journal of Applied Sciences, Vol. 3 No. 1, 2013, pp. 1-5. doi: 10.4236/ojapps.2013.31B001.
References
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[2]   Ko S J, Lee S H, Jeon S W, et al. Fast digital image stabilizer based on gray-coded bit-plane matching[J], IEEE Transactions on Consumer Electronics, Aug 1999,45(3):598-603.

[3]   Yankun Wang and Liu Fang. Global motion estimation using the bit-planes and diamond searching [J], Ordnance Industry Automation, (200711):80-85.

 
 
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