Automatic corrections of human body depth maps using deep neural networks

Q3 Engineering

Serbian Journal of Electrical Engineering Pub Date : 2020-01-01 DOI:10.2298/sjee2003285g

Gorana Gojic, R. Turovic, D. Dragan, Dušan B. Gajić, V. Petrovic

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引用次数: 0

Abstract

This paper presents an approach to correcting misclassified pixels in depth maps representing parts of the human body. A misclassified pixel is a pixel of a depth map which, incorrectly, has the ?background? value and does not accurately reflect the distance from the sensor to the body being scanned. A completely automatic, deep learning based solution for depth map correction is proposed. As an input, the solution requires a color image and a corresponding erroneous depth map. The input color image is segmented using deep neural network for human body segmentation. The extracted segments are further used as guidance to find and amend the misclassified pixels on the depth map using a simple average based filter. Unlike other depth map refinement solutions, this paper designs a method for the improvement of the input depth map in terms of completeness instead of precision. The proposed method does not exclude the application of other refinement methods. Instead, it can be used as the first step in a depth map enhancement pipeline to determine approximate depths for erroneous pixels, while other refinement methods can be applied in a second step to improve the accuracy of the recovered depths.

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基于深度神经网络的人体深度图自动校正

本文提出了一种校正人体部分深度图中错误分类像素的方法。错误分类的像素是深度图的像素，它错误地具有“背景”。值，不能准确反映从传感器到被扫描物体的距离。提出了一种完全自动的、基于深度学习的深度图校正方法。作为输入，该解决方案需要彩色图像和相应的错误深度图。利用深度神经网络对输入的彩色图像进行人体分割。将提取的图像段作为指导，使用基于简单平均的滤波器来查找和修正深度图上的错误分类像素。与其他深度图改进方案不同，本文设计了一种改进输入深度图的方法，从完整性而不是精度方面进行改进。所提出的方法不排除其他精化方法的应用。相反，它可以作为深度图增强管道的第一步，以确定错误像素的近似深度，而其他细化方法可以在第二步应用，以提高恢复深度的准确性。

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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来源期刊

Serbian Journal of Electrical Engineering Energy-Energy Engineering and Power Technology

CiteScore

1.30

自引率

0.00%

发文量

审稿时长

25 weeks

期刊介绍： The main aims of the Journal are to publish peer review papers giving results of the fundamental and applied research in the field of electrical engineering. The Journal covers a wide scope of problems in the following scientific fields: Applied and Theoretical Electromagnetics, Instrumentation and Measurement, Power Engineering, Power Systems, Electrical Machines, Electrical Drives, Electronics, Telecommunications, Computer Engineering, Automatic Control and Systems, Mechatronics, Electrical Materials, Information Technologies, Engineering Mathematics, etc.