Deep Neural Network Based Shape Reconstruction for Application in Robotics

2019 International Conference on Robotics and Automation in Industry (ICRAI) Pub Date : 2019-10-01 DOI:10.1109/ICRAI47710.2019.8967366

Mikhail Li, Husna Mutahira, Bilal Ahmad, Mannan Saeed Muhammad

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引用次数: 2

Abstract

Three-dimensional shape recovery and reconstruction, for classification and other applications, is an important task in Robotics. Shape From Focus (SFF) is one of the passive optical technique for 3D shape recovery, from a set of differently focused 2D images. It uses focus information as a cue to estimate 3D shape in the scene. Conventionally, images are taken at multiple positions along the optical axis of the imaging device, and stored in the image stack. This is followed by application of focus measure operators (FM). In order to reconstruct 3D shape of the object, best focused positions are obtained, by maximizing the focus curves obtained by FM application. Multiple FMs have been proposed in the literature but most of them are computationally expensive, since they have to process huge amounts of data. In this paper, Deep Neural Networks (DNN) have been employed to measure the amount of focus in the image stack with high accuracy. The results are compared with commonly used FMs by employing RMSE, Correlation and Q index.

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基于深度神经网络的形状重构在机器人中的应用

三维形状的恢复与重建是机器人技术中的一项重要任务，用于分类和其他应用。形状离焦(SFF)是从一组不同聚焦的二维图像中进行三维形状恢复的被动光学技术之一。它使用焦点信息作为线索来估计场景中的3D形状。通常，沿着成像装置的光轴在多个位置拍摄图像，并存储在图像堆栈中。其次是焦点测量算子(FM)的应用。为了重建物体的三维形状，通过最大化调频获得的聚焦曲线来获得最佳聚焦位置。文献中已经提出了多个FMs，但其中大多数在计算上都很昂贵，因为它们必须处理大量数据。本文采用深度神经网络(Deep Neural Networks, DNN)高精度地测量图像堆栈中的焦点量。采用RMSE、Correlation和Q指数将结果与常用的FMs进行比较。

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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2019 International Conference on Robotics and Automation in Industry (ICRAI)

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