%0 Journal Article
	%A Angelica I. Aviles and  Pilar Sobrevilla and  Alicia Casals
	%D 2014
	%J International Journal of Biomedical and Biological Engineering
	%B World Academy of Science, Engineering and Technology
	%I Open Science Index 93, 2014
	%T In Search of Robustness and Efficiency via l1− and l2− Regularized Optimization for Physiological Motion Compensation
	%U https://publications.waset.org/pdf/9999188
	%V 93
	%X Compensating physiological motion in the context
of minimally invasive cardiac surgery has become an attractive
issue since it outperforms traditional cardiac procedures offering
remarkable benefits. Owing to space restrictions, computer vision
techniques have proven to be the most practical and suitable solution.
However, the lack of robustness and efficiency of existing methods
make physiological motion compensation an open and challenging
problem. This work focusses on increasing robustness and efficiency
via exploration of the classes of 1−and 2−regularized optimization,
emphasizing the use of explicit regularization. Both approaches are
based on natural features of the heart using intensity information.
Results pointed out the 1−regularized optimization class as the best
since it offered the shortest computational cost, the smallest average
error and it proved to work even under complex deformations.

	%P 534 - 539