Effect of cognitive load on tactor location identification in zero-g

First Joint Eurohaptics Conference and Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems. World Haptics Conference Pub Date : 2005-03-18 DOI:10.1109/WHC.2005.46

Anushka Bhargava, Michael Scott, Ryan M. Traylor, Roy Chung, Kimberly Mrozek, Jonathan Wolter, H. Tan

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引用次数: 11

Abstract

A wearable haptic interface has been developed to impart vibrotactile information to its user with the goal of improving situation awareness. The effectiveness of the haptic interface has been evaluated in three experiments aboard the NASA KC-135A reduced gravity aircraft. During the third flight, subjects identified the locations of tactors embedded in the haptic display in a microgravity environment. We report our results on how cognitive load affects one's ability to identify the locations of vibrotactile stimulations in the altered-gravity environment. Cognitive load was manipulated by requiring subjects to be strapped to the floor of the KC-135 (low cognitive-load condition) or allowing them to float freely in microgravity (high cognitive-load condition). It was found that tactor-location identification was more accurate in the low cognitive-load condition than in the high cognitive-load condition. Our results have implications for the design of multimodal user interfaces in general.

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认知负荷对零重力条件下因素位置识别的影响

开发了一种可穿戴触觉界面，以向用户传递振动触觉信息，以提高用户的态势感知能力。触觉界面的有效性已经在NASA KC-135A减重力飞行器上的三个实验中进行了评估。在第三次飞行中，受试者在微重力环境下识别嵌入触觉显示器的因素的位置。我们报告了认知负荷如何影响一个人在改变重力环境中识别振动触觉刺激位置的能力的结果。认知负荷是通过要求受试者被绑在KC-135的地板上(低认知负荷条件)或允许他们在微重力下自由漂浮(高认知负荷条件)来控制的。研究发现，低认知负荷条件下的因素位置识别比高认知负荷条件下的因素位置识别更准确。我们的结果对一般的多模态用户界面的设计具有启示意义。

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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First Joint Eurohaptics Conference and Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems. World Haptics Conference

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