Lorenzo Dello Schiavo, Jan Maas, Francesco Pedrotti
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引用次数: 0
摘要
本文讨论梯度流轨迹及其离散化收敛到全局最小值的局部标准。为了获得收敛速度的定量估计,我们考虑了一大类参数函数的经典 Kurdyka-Łojasiewicz 不等式的变体。我们的假设是根据初始数据给出的,不涉及任何平衡点。主要结果是梯度流曲线和近点序列对全局最小化的收敛声明,以及对收敛速度的精确定量估计。这些收敛结果适用于完整度量空间上的下半连续函数的一般环境,概括了 R n \mathbb {R}^n 上光滑函数的最新结果。虽然非光滑设置涵盖了非常一般的空间,但对于 R n \mathbb {R}^n 上的(非)光滑函数也很有用。
Local conditions for global convergence of gradient flows and proximal point sequences in metric spaces
This paper deals with local criteria for the convergence to a global minimiser for gradient flow trajectories and their discretisations. To obtain quantitative estimates on the speed of convergence, we consider variations on the classical Kurdyka–Łojasiewicz inequality for a large class of parameter functions. Our assumptions are given in terms of the initial data, without any reference to an equilibrium point. The main results are convergence statements for gradient flow curves and proximal point sequences to a global minimiser, together with sharp quantitative estimates on the speed of convergence. These convergence results apply in the general setting of lower semicontinuous functionals on complete metric spaces, generalising recent results for smooth functionals on Rn\mathbb {R}^n. While the non-smooth setting covers very general spaces, it is also useful for (non)-smooth functionals on Rn\mathbb {R}^n.
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