Add to ORKGAbstract. In this paper we study an algorithm for solving a minimization problem composed of a differentiable (possibly non-convex) and a convex (possibly non-differentiable) function. The algorithm iPiano combines forward-backward splitting with an inertial force. It can be seen as a non-smooth split version of the Heavy-ball method from Polyak. A rigorous analysis of the algo-rithm for the proposed class of problems yields global convergence of the function values and the arguments. This makes the algorithm robust for usage on non-convex problems. The convergence result is obtained based on the Kurdyka- Lojasiewicz inequality. This is a very weak restriction, which was used to prove convergence for several other gradient methods. First, a...
In a Hilbertian framework, for the minimization of a general convex differentiable function f , we i...
International audienceWe consider the minimization of a function $G$ defined on $R^N$, which is the ...
In a Hilbert space $H$, based on inertial dynamics with dry friction damping, we introduce a new cla...
In this paper we study an algorithm for solving a minimization problem composed of a differentiable ...
In this paper, we present a forward-backward splitting algorithm with additional inertial term for s...
In this paper, we present a forward–backward splitting algorithm with additional inertial term for s...
International audienceIn this paper, we propose a multi-step inertial Forward–Backward splitting alg...
We consider the problem of minimizing a smooth convex objective function subject to the set of minim...
International audienceIn a Hilbert space setting, the authors recently introduced a general class of...
Abstract. We propose a forward-backward proximal-type algorithm with inertial/memory effects for min...
For the past few decades, various algorithms have been proposed to solve convex minimization problem...
Optimization is an important discipline of applied mathematics with far-reaching applications. Optim...
International audienceWe propose a unifying algorithm for non-smooth non-convex optimization. The al...
International audienceIn this paper we provide a theoretical and numerical comparison of convergence...
We develop a new proximal-gradient method for minimizing the sum of a differentiable, possibly nonco...
In a Hilbertian framework, for the minimization of a general convex differentiable function f , we i...
International audienceWe consider the minimization of a function $G$ defined on $R^N$, which is the ...
In a Hilbert space $H$, based on inertial dynamics with dry friction damping, we introduce a new cla...
In this paper we study an algorithm for solving a minimization problem composed of a differentiable ...
In this paper, we present a forward-backward splitting algorithm with additional inertial term for s...
In this paper, we present a forward–backward splitting algorithm with additional inertial term for s...
International audienceIn this paper, we propose a multi-step inertial Forward–Backward splitting alg...
We consider the problem of minimizing a smooth convex objective function subject to the set of minim...
International audienceIn a Hilbert space setting, the authors recently introduced a general class of...
Abstract. We propose a forward-backward proximal-type algorithm with inertial/memory effects for min...
For the past few decades, various algorithms have been proposed to solve convex minimization problem...
Optimization is an important discipline of applied mathematics with far-reaching applications. Optim...
International audienceWe propose a unifying algorithm for non-smooth non-convex optimization. The al...
International audienceIn this paper we provide a theoretical and numerical comparison of convergence...
We develop a new proximal-gradient method for minimizing the sum of a differentiable, possibly nonco...
In a Hilbertian framework, for the minimization of a general convex differentiable function f , we i...
International audienceWe consider the minimization of a function $G$ defined on $R^N$, which is the ...
In a Hilbert space $H$, based on inertial dynamics with dry friction damping, we introduce a new cla...