PATCH: Pump-Actuated Thermal Compression Haptics

Dustin T. Goetz, D. Owusu-Antwi, Heather Culbertson
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引用次数: 12

Abstract

Haptics in virtual reality has become increasingly important for improving realism and immersiveness. However, matching the complexity of real-world tactile interactions is a challenging problem due to the complexity of our sense of touch. Motivated by the recognition that multi-modal haptic feedback is needed to fully recreate human touch, we created PATCH, a Pump-Actuated Thermal Compression Haptic device for presenting simultaneous thermal and compression cues. The system uses water of varying temperature to provide compression cues and transfer heat to or from the user's skin. The wearable component of the system is constructed solely of soft, flexible components. When compared to an established, unimodal, pressure-based haptic device, the PATCH system was found to perform similarly in terms of recognition and saliency, but it was rated more favorably in terms of wearability. The PATCH device can display temperatures ranging from 17° C to 42° C, fitting the desired temperatures with an R2 = 0.75, and can display pulsed cues at a rate of 0.22 Hz. The success of our PATCH system can serve to inform the development of the next generation of multi-modal haptic devices.
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贴片:泵驱动热压缩触觉
虚拟现实中的触觉技术对于提高真实感和沉浸感变得越来越重要。然而,由于我们的触觉的复杂性,匹配现实世界触觉交互的复杂性是一个具有挑战性的问题。由于认识到需要多模态触觉反馈来完全重现人类触觉,我们创建了PATCH,一种泵驱动的热压缩触觉设备,用于同时呈现热和压缩提示。该系统使用不同温度的水来提供压缩提示,并将热量传递到用户的皮肤。该系统的可穿戴部件完全由柔软、灵活的部件构成。与现有的单峰式、基于压力的触觉设备相比,PATCH系统在识别和显著性方面表现相似,但在可穿戴性方面表现更佳。PATCH器件可以显示17°C至42°C的温度范围,拟合所需温度的R2 = 0.75,并且可以以0.22 Hz的速率显示脉冲信号。我们的PATCH系统的成功可以为下一代多模态触觉设备的开发提供信息。
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