Fitness of General-Purpose Monocular Depth Estimation Architectures for Transparent Structures

Tristan Wirth, Aria Jamili, Max von Bülow, V. Knauthe, S. Guthe
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Abstract

Due to material properties, monocular depth estimation of transparent structures is inherently challenging. Recent advances leverage additional knowledge that is not available in all contexts, i.e., known shape or depth information from a sensor. General-purpose machine learning models, that do not utilize such additional knowledge, have not yet been explicitly evaluated regarding their performance on transparent structures. In this work, we show that these models show poor performance on the depth estimation of transparent structures. However, fine-tuning on suitable data sets, such as ClearGrasp, increases their estimation performance on the task at hand. Our evaluations show that high performance on general-purpose benchmarks translates well into performance on transparent objects after fine-tuning. Furthermore, our analysis suggests, that state-of-theart high-performing models are not able to capture a high grade of detail from both the image foreground and background at the same time. This finding shows the demand for a combination of existing models to further enhance depth estimation quality. CCS Concepts • Computing methodologies → Computer vision; Shape inference;
透明结构通用单目深度估计体系的适应度
由于材料的特性,透明结构的单目深度估计具有固有的挑战性。最近的进展利用了并非在所有情况下都可用的额外知识,即来自传感器的已知形状或深度信息。通用机器学习模型没有利用这些额外的知识,尚未明确评估其在透明结构上的性能。在这项工作中,我们表明这些模型在透明结构的深度估计上表现不佳。然而,对合适的数据集进行微调,比如ClearGrasp,可以提高它们对手头任务的估计性能。我们的评估表明,经过微调后,通用基准测试的高性能可以很好地转化为透明对象的性能。此外,我们的分析表明,最先进的高性能模型无法同时从图像前景和背景中捕获高质量的细节。这一发现表明需要结合现有模型来进一步提高深度估计质量。•计算方法→计算机视觉;图形推理;
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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