GROUPTHINK

IF 1.4 Q3 COMPUTER SCIENCE, SOFTWARE ENGINEERING

Proceedings of the ACM on computer graphics and interactive techniques Pub Date : 2022-09-06 DOI:10.1145/3533610

Ali Hossaini, Oliver M. Gingrich, Shama Rahman, M. Grierson, Joshua Murr, A. Chamberlain, Alain Renaud

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引用次数: 0

Abstract

Live performers often describe "playing to the audience" as shifts in emphasis, timing and even content according to perceived audience reactions. Traditional staging allows the transmission of physiological signals through the audience's eyes, skin, odor, breathing, vocalizations and motions such as dancing, stamping and clapping, some of which are audible. The Internet and other mass media broaden access to live performance, but they efface traditional channels for "liveness," which we specify as physiological feedback loops that bind performers and audience through shared agency. During online events, contemporary performers enjoy text and icon-based feedback, but current technology limits expression of physiological reactions by remote audiences. Looking to a future Internet of Neurons where humans and AI co-create via neurophysiological interfaces, this paper examines the possibility of reestablishing audience agency during live performance by using hemodynamic sensors while exploring the potential of AI as a creative collaborator.

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群体思维

现场表演者经常将“为观众表演”描述为根据感知到的观众反应改变重点、时间甚至内容。传统的舞台表演是通过观众的眼睛、皮肤、气味、呼吸、发声以及舞蹈、跺脚、鼓掌等动作来传递生理信号，有些动作是可以听到的。互联网和其他大众媒体拓宽了现场表演的渠道，但它们抹去了传统的“活力”渠道，我们将其定义为通过共享代理将表演者和观众联系在一起的生理反馈循环。在网络活动中，当代表演者享受文本和基于图标的反馈，但目前的技术限制了远程观众对生理反应的表达。展望未来的神经元互联网，人类和人工智能通过神经生理接口共同创造，本文探讨了通过使用血液动力学传感器在现场表演中重建观众代理的可能性，同时探索了人工智能作为创造性合作者的潜力。

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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来源期刊

Proceedings of the ACM on computer graphics and interactive techniques

CiteScore

2.90

自引率

0.00%

发文量