Julia Reuter, Viktor Martinek, Roland Herzog, Sanaz Mostaghim
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引用次数: 0
Abstract
When developing empirical equations, domain experts require these to be
accurate and adhere to physical laws. Often, constants with unknown units need
to be discovered alongside the equations. Traditional unit-aware genetic
programming (GP) approaches cannot be used when unknown constants with
undetermined units are included. This paper presents a method for dimensional
analysis that propagates unknown units as ''jokers'' and returns the magnitude
of unit violations. We propose three methods, namely evolutive culling, a
repair mechanism, and a multi-objective approach, to integrate the dimensional
analysis in the GP algorithm. Experiments on datasets with ground truth
demonstrate comparable performance of evolutive culling and the multi-objective
approach to a baseline without dimensional analysis. Extensive analysis of the
results on datasets without ground truth reveals that the unit-aware algorithms
make only low sacrifices in accuracy, while producing unit-adherent solutions.
Overall, we presented a promising novel approach for developing unit-adherent
empirical equations.
在建立经验方程时,领域专家要求这些方程必须准确并符合物理规律。通常情况下,需要与方程一起发现未知单位的常数。当包含有确定单位的未知常数时,传统的单位感知遗传编程(GP)方法就无法使用了。本文提出了一种维度分析方法,将未知单位作为 "小丑 "进行传播,并返回违反单位的大小。我们提出了三种方法,即进化剔除、配对机制和多目标方法,将维度分析集成到 GP 算法中。在具有地面实况的数据集上进行的实验表明,进化剔除和多目标方法的性能与不进行维度分析的基线相当。对无地面实况数据集的结果进行的广泛分析表明,单元感知算法只牺牲了较低的准确性,同时产生了单元相干解。
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