CHS: Small: Collaborative Research: Improving Wayfinding and Navigation in Immersive Virtual Environments

CHS：小型：协作研究：改进沉浸式虚拟环境中的寻路和导航

• 批准号: 1526611
• 负责人: Amy Shelton
• 金额: $ 12.5万
• 依托单位: Johns Hopkins University
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2015
• 资助国家: 美国
• 起止时间: 2015-11-01 至 2018-10-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1526611&HistoricalAwards=false
• 关键词: CHS; Small; Collaborative; Research; Improving

The objective of this research is to enable more effective design and use of virtual worlds. Virtual worlds are important in many domains, including architecture, education, medicine, simulation, and training. However, when compared to the real world, virtual worlds are hard to move through effectively, and pose challenges to effective navigation. If virtual worlds are going to be widely deployed - particularly for applications in education, training, and simulation - then these problems must be solved. This work will generate essential discoveries improving the process of wayfinding (orienting and navigating from place to place) and locomoting through immersive virtual worlds. It thus provides a critical and synergistic complement to the recent advent of low-cost commodity-level virtual reality equipment.This research is multi-disciplinary and employs methods from computer science, cognitive science, and geographical information science in accomplishing these objectives. A transformation of wayfinding and navigation for large immersive virtual worlds can be accomplished by studying locomotion modes in conjunction with the spatial characteristics of virtual worlds and individual differences and abilities of the users of the virtual environments. In this work, virtual worlds are described and analyzed in terms of their connectivity, visual access, and integration using formal measures summarized as space syntax. Likewise, individuals traveling through virtual worlds may navigate and reason about space quite differently, and these differences can be quantified and measured. The goal is to develop locomotion modes that take into account both characteristics described by space syntax and individual attributes of users. Truly effective design and use of virtual worlds depend on an understanding of how an individual's abilities relate to the characteristics of the virtual world and the mechanisms for moving about in them. This interdisciplinary approach examines wayfinding and navigation in a multi-factor way, combining a focus on locomotion modes, a focus on spatial syntax (characteristics) of the virtual world, and a focus on the abilities and differences of individual users. In addition to improving the design and use of virtual worlds, this work will impact multiple disciplines: it not only advances computer graphics and virtual reality, but also informs the fields of cognitive science and geographical information science.

这项研究的目的是为了能够更有效地设计和使用虚拟世界。虚拟世界在许多领域都很重要，包括建筑、教育、医疗、模拟和培训。然而，与现实世界相比，虚拟世界很难有效地移动，并对有效导航构成挑战。如果虚拟世界要被广泛部署--特别是在教育、培训和模拟方面的应用--那么这些问题就必须得到解决。这项工作将产生基本的发现，改善路线发现(从一个地方到另一个地方的定向和导航)和在身临其境的虚拟世界中移动的过程。这项研究是多学科的，运用了计算机科学、认知科学和地理信息科学的方法来实现这些目标。通过研究虚拟世界的运动模式，结合虚拟世界的空间特征和虚拟环境用户的个体差异和能力，可以实现大型沉浸式虚拟世界的寻路和导航转型。在这项工作中，使用概括为空间句法的形式措施，从连接、视觉访问和整合方面对虚拟世界进行描述和分析。同样，在虚拟世界中旅行的人可能会对空间进行完全不同的导航和推理，这些差异可以量化和衡量。目标是开发既考虑空间句法描述的特征又考虑用户个人属性的移动模式。虚拟世界的真正有效设计和使用取决于对个人能力如何与虚拟世界的特征以及在其中活动的机制的理解。这种跨学科的方法以一种多因素的方式审查路线发现和导航，结合了对移动模式的关注，对虚拟世界的空间句法(特征)的关注，以及对个人用户的能力和差异的关注。除了改进虚拟世界的设计和使用，这项工作还将影响多个学科：它不仅推进了计算机图形学和虚拟现实，而且为认知科学和地理信息科学领域提供了信息。