Many real-world applications are addressed through a linear least-squares problem formulation, whose solution is calculated by means of an iterative approach. A huge number of studies has been carried out in the optimization field to provide the fastest methods for the reconstruction of the solution, involving choices of adaptive parameters and scaling matrices. However, in the presence of an ill-conditioned model and real data, the need for a regularized solution instead of the least-squares one changed the point of view in favour of iterative algorithms able to combine fast execution with stable behaviour with respect to the restoration error. In this paper we analyse some classical and recent gradient approaches for the linear least-squares problem by looking at their way of filtering the singular values, showing in particular the effects of scaling matrices and non-negative constraints in recovering the correct filters of the solution. An original analysis of the filtering effect for the image deblurring problem with Gaussian noise on the data is also provided.
A Cornelio, F Porta, M Prato, L Zanni (2013). On the filtering effect of iterative regularization algorithms for discrete inverse problems. INVERSE PROBLEMS, 29, 125013-125030 [10.1088/0266-5611/29/12/125013].
On the filtering effect of iterative regularization algorithms for discrete inverse problems
CORNELIO, ANASTASIA;
2013
Abstract
Many real-world applications are addressed through a linear least-squares problem formulation, whose solution is calculated by means of an iterative approach. A huge number of studies has been carried out in the optimization field to provide the fastest methods for the reconstruction of the solution, involving choices of adaptive parameters and scaling matrices. However, in the presence of an ill-conditioned model and real data, the need for a regularized solution instead of the least-squares one changed the point of view in favour of iterative algorithms able to combine fast execution with stable behaviour with respect to the restoration error. In this paper we analyse some classical and recent gradient approaches for the linear least-squares problem by looking at their way of filtering the singular values, showing in particular the effects of scaling matrices and non-negative constraints in recovering the correct filters of the solution. An original analysis of the filtering effect for the image deblurring problem with Gaussian noise on the data is also provided.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.