Lightweight Quality Evaluation of Generated Samples and Generative Models

IF 3.2 Q1 Computer Science APSIPA Transactions on Signal and Information Processing Pub Date : 2023-01-01 DOI:10.1561/116.00000076

Ganning Zhao, Vasileios Magoulianitis, Suya You, C. J. Kuo

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Abstract

Although there are metrics to evaluate the performance of generative models, little research is conducted on the quality evaluation of individual generated samples. A lightweight generated sample quality evaluation (LGSQE) method is proposed in this work. LGSQE trains a binary classifier to differentiate real and synthetic images from a generative model and, then, uses it to assign a soft label between zero and one to a generated sample as its quality index. LGSQE can reject poor generations and serve as a post-processing module for quality control. Furthermore, by aggregating quality indices of a large number of generated samples, LGSQE offers four metrics (i.e., classification accuracy (Acc), the area under the curve (AUC), precision, and recall) to evaluate the performance of a generative model as a byproduct. LGSQE demands a significantly smaller memory size and faster evaluation time while preserving the same rank order predicted by the Fréchet Inception Distance (FID). Extensive experiments are conducted to demonstrate the effectiveness and efficiency of LGSQE.

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生成样本和生成模型的轻量级质量评估

虽然有指标来评估生成模型的性能，但很少有研究对单个生成样本的质量评估。本文提出了一种轻量级的生成样本质量评价方法。LGSQE训练一个二值分类器从生成模型中区分真实图像和合成图像，然后使用它为生成的样本分配0到1之间的软标签作为其质量指标。LGSQE可以拒绝较差的代，并作为质量控制的后处理模块。此外，通过汇总大量生成样本的质量指标，LGSQE提供了四个指标(即分类精度(Acc)，曲线下面积(AUC)，精度和召回率)来评估生成模型作为副产品的性能。LGSQE需要更小的内存大小和更快的评估时间，同时保持与fr起始距离(FID)预测的相同的秩顺序。大量的实验证明了LGSQE的有效性和效率。

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