It is known that step size adaptive evolution strategies (ES) do not converge (prematurely) to regular points of continuously differentiable objective functions. Among critical points, convergence to minima is desired, and convergence to maxima is easy to exclude. However, surprisingly little is known on whether ES can get stuck at a saddle point. In this work we establish that even the simple (1+1)-ES reliably overcomes most saddle points under quite mild regularity conditions. Our analysis is based on drift with tail bounds. It is non-standard in that we do not even aim to estimate hitting times based on drift. Rather, in our case it suffices to show that the relevant time is finite with full probability.
翻译:众所周知,步骤规模的适应性演变战略(ES)没有(过早地)与持续差异的客观功能的经常点相融合(ES),在关键点中,希望与微型趋同,而与最大点的趋同很容易被排除。然而,令人惊讶的是,对于ES能否被困在一个支撑点,人们知之甚少。在这项工作中,我们确定,即使是简单的(1+1)-ES可靠地在相当温和的正常条件下克服了大多数支撑点。我们的分析基于尾线的漂移。我们甚至不试图根据漂移来估计打击时间,这是非标准性的。相反,就我们的情况而言,只要表明相关的时间是有限的,完全有可能。
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