Comparative evaluation of multiresolution optimization strategies for multimodality image registration by maximization of mutual information

Frederik Maes, Dirk Vandermeulen, Paul Suetens
1999 Medical Image Analysis  
Maximization of mutual information of voxel intensities has been demonstrated to be a very powerful criterion for three-dimensional medical image registration, allowing robust and accurate fully automated affine registration of multimodal images in a variety of applications, without the need for segmentation or other preprocessing of the images. In this paper, we investigate the performance of various optimization methods and multiresolution strategies for maximization of mutual information,
more » ... ing at increasing registration speed when matching large high-resolution images. We show that mutual information is a continuous function of the affine registration parameters when appropriate interpolation is used and we derive analytic expressions of its derivatives that allow numerically exact evaluation of its gradient. Various multiresolution gradient-and non-gradient-based optimization strategies, such as Powell, simplex, steepestdescent, conjugate-gradient, quasi-Newton and Levenberg-Marquardt methods, are evaluated for registration of computed tomography (CT) and magnetic resonance images of the brain. Speedups of a factor of 3 on average compared to Powell's method at full resolution are achieved with similar precision and without a loss of robustness with the simplex, conjugate-gradient and Levenberg-Marquardt method using a two-level multiresolution scheme. Large data sets such as 2562 x 128 MR and 5122 x 48 CT images can be registered with subvoxel precision in t5 min CPU time on current workstations.
doi:10.1016/s1361-8415(99)80030-9 pmid:10709702 fatcat:mlfgytckgnd7pkgnoftvjrk4my