一种提高操作者态势感知的虚拟全方位视觉灵活框架

2021 European Conference on Mobile Robots (ECMR) Pub Date : 2021-08-01 DOI:10.1109/ECMR50962.2021.9568840

M. Oehler, O. Stryk

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引用次数: 4

摘要

在移动机器人的远程操作中，提供良好的操作员态势感知是一个主要问题，因为单个错误可能导致任务失败。摄像机流广泛用于远程操作，但提供有限的视野。在本文中，我们提出了一种灵活的虚拟投影框架，该框架基于一种融合安装在机器人上任何位置的多个摄像机的新方法来增加态势感知。此外，我们提出了一种互补的方法，通过融合相机图像和几何3D激光雷达数据来获得彩色点云，从而提高场景理解能力。在紧凑型全向相机上的实现大大降低了系统的复杂性，与传统方法(如驱动的泛倾斜单元)相比，在更小的占地面积上解决了多个用例。最后，通过对波士顿动力现场多摄像机系统的应用，证明了该方法的通用性。软件实现可以在项目页面https://tu-darmstadt-ros-pkg.github.io/omnidirectional_vision上以开源ROS包的形式获得。

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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A Flexible Framework for Virtual Omnidirectional Vision to Improve Operator Situation Awareness

During teleoperation of a mobile robot, providing good operator situation awareness is a major concern as a single mistake can lead to mission failure. Camera streams are widely used for teleoperation but offer limited field-of-view. In this paper, we present a flexible framework for virtual projections to increase situation awareness based on a novel method to fuse multiple cameras mounted anywhere on the robot. Moreover, we propose a complementary approach to improve scene understanding by fusing camera images and geometric 3D Lidar data to obtain a colorized point cloud. The implementation on a compact omnidirectional camera reduces system complexity considerably and solves multiple use-cases on a much smaller footprint compared to traditional approaches such as actuated pan-tilt units. Finally, we demonstrate the generality of the approach by application to the multi-camera system of the Boston Dynamics Spot. The software implementation is available as open-source ROS packages on the project page https://tu-darmstadt-ros-pkg.github.io/omnidirectional_vision.

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2021 European Conference on Mobile Robots (ECMR)

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