Distributed user tracking concepts for augmented reality applications

Proceedings IEEE and ACM International Symposium on Augmented Reality (ISAR 2000) Pub Date : 2000-10-05 DOI:10.1109/ISAR.2000.880921

G. Klinker, T. Reicher, B. Brügge

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引用次数: 44

Abstract

Augmented reality (AR) constitutes a new user interface paradigm. Using light head-sets and hand-held or worn computing equipment, users can roam their daily working environment while being continuously in contact with their computer systems. For AR to work properly in a large factory, new system architectures have to be designed with consideration of the special requirements imposed by AR. In particular, AR requires real-time facilities to track the user's position and viewing direction. In the past, various carefully calibrated sensing devices have been used for this purpose, including magnetic trackers and active LED systems. Research is now focusing on computer vision-based methods. It is our hypothesis that, in the future, the most successful indoor approaches will combine local (user-worn) vision-based tracking methods with global user tracking schemes from fixed (wall-mounted) sensors, using mobile wireless networking technology to allow the user-worn system to communicate with the globally available sensing infrastructure in an intelligent building. We propose the concept of "AR-ready" intelligent buildings which provide built-in tracking services via different sensing modalities.

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增强现实应用的分布式用户跟踪概念

增强现实(AR)构成了一种新的用户界面范式。使用轻型头戴式耳机和手持或穿戴式计算设备，用户可以在与计算机系统持续接触的同时，在日常工作环境中漫游。为了使AR在大型工厂中正常工作，必须设计新的系统架构，并考虑到AR的特殊要求。特别是AR需要实时设施来跟踪用户的位置和观看方向。在过去，各种精心校准的传感设备已用于此目的，包括磁跟踪器和有源LED系统。目前的研究重点是基于计算机视觉的方法。我们的假设是，在未来，最成功的室内方法将结合本地(用户佩戴的)基于视觉的跟踪方法和来自固定(壁挂式)传感器的全球用户跟踪方案，使用移动无线网络技术，允许用户佩戴的系统与智能建筑中全球可用的传感基础设施进行通信。我们提出了“AR-ready”智能建筑的概念，通过不同的传感方式提供内置跟踪服务。

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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Proceedings IEEE and ACM International Symposium on Augmented Reality (ISAR 2000)

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