Nonlinear Forward-Backward Splitting with Momentum Correction

IF 1.3 3区数学 Q2 MATHEMATICS, APPLIED

Set-Valued and Variational Analysis Pub Date : 2023-11-03 DOI:10.1007/s11228-023-00700-4

Martin Morin, Sebastian Banert, Pontus Giselsson

引用次数: 6

Abstract

Abstract The nonlinear, or warped, resolvent recently explored by Giselsson and Bùi-Combettes has been used to model a large set of existing and new monotone inclusion algorithms. To establish convergent algorithms based on these resolvents, corrective projection steps are utilized in both works. We present a different way of ensuring convergence by means of a nonlinear momentum term, which in many cases leads to cheaper per-iteration cost. The expressiveness of our method is demonstrated by deriving a wide range of special cases. These cases cover and expand on the forward-reflected-backward method of Malitsky-Tam, the primal-dual methods of Vũ-Condat and Chambolle-Pock, and the forward-reflected-Douglas-Rachford method of Ryu-Vũ. A new primal-dual method that uses an extra resolvent step is also presented as well as a general approach for adding momentum to any special case of our nonlinear forward-backward method, in particular all the algorithms listed above.

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具有动量校正的非线性前向后分裂

Giselsson和Bùi-Combettes最近探索的非线性或翘曲解已经被用来模拟大量现有的和新的单调包含算法。为了建立基于这些解的收敛算法，在这两项工作中都使用了校正投影步骤。我们提出了一种利用非线性动量项来保证收敛性的不同方法，这种方法在许多情况下可以降低每次迭代的成本。通过推导一系列的特殊情况，证明了我们方法的表达性。这些案例涵盖并扩展了Malitsky-Tam的前向反射-后向方法、Vũ-Condat和Chambolle-Pock的原对偶方法以及ryu - vmu的前向反射- douglas - rachford方法。本文还提出了一种新的原始对偶方法，该方法使用了一个额外的解决步骤，以及一种一般的方法来增加动量到我们的非线性前向后向方法的任何特殊情况，特别是上面列出的所有算法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Set-Valued and Variational Analysis MATHEMATICS, APPLIED-

CiteScore

2.90

自引率

6.20%

发文量

审稿时长

>12 weeks

期刊介绍： The scope of the journal includes variational analysis and its applications to mathematics, economics, and engineering; set-valued analysis and generalized differential calculus; numerical and computational aspects of set-valued and variational analysis; variational and set-valued techniques in the presence of uncertainty; equilibrium problems; variational principles and calculus of variations; optimal control; viability theory; variational inequalities and variational convergence; fixed points of set-valued mappings; differential, integral, and operator inclusions; methods of variational and set-valued analysis in models of mechanics, systems control, economics, computer vision, finance, and applied sciences. High quality papers dealing with any other theoretical aspect of control and optimization are also considered for publication.